Exosomes in metastasis of colorectal cancers:Friends or foes?

Zheng Wu,Ze-Xuan Fang,Yan-Yu Hou,Bing-Xuan Wu,Yu Deng,Hua-Tao Wu,Jing Liu

Zheng Wu,Ze-Xuan Fang,Yan-Yu Hou,Jing Liu,Guangdong Provincial Key Laboratory for Diagnosis and Treatment of Breast Cancer,Cancer Hospital of Shantou University Medical College,Shantou 515041,Guangdong Province,China

Bing-Xuan Wu,Yu Deng,Hua-Tao Wu,Department of General Surgery,The First Affiliated Hospital of Shantou University Medical College,Shantou 515041,Guangdong Province,China

Abstract Colorectal cancer(CRC),the third most common type of cancer worldwide,threaten human health and quality of life.With multidisciplinary,including surgery,chemotherapy and/or radiotherapy,patients with an early diagnosis of CRC can have a good prognosis.However,metastasis in CRC patients is the main risk factor causing cancer-related death.To elucidate the underlying molecular mechanisms of CRC metastasis is the difficult and research focus on the investigation of the CRC mechanism.On the other hand,the tumor microenvironment(TME)has been confirmed as having an essential role in the tumorigenesis and metastasis of malignancies,including CRCs.Among the different factors in the TME,exosomes as extracellular vesicles,function as bridges in the communication between cancer cells and different components of the TME to promote the progression and metastasis of CRC.MicroRNAs packaged in exosomes can be derived from different sources and transported into the TME to perform oncogenic or tumor-suppressor roles accordingly.This article focuses on CRC exosomes and illustrates their role in regulating the metastasis of CRC,especially through the packaging of miRNAs,to evoke exosomes as novel biomarkers for their impact on the metastasis of CRC progression.

Key Words:Exosome;Colorectal cancer;Metastasis;miRNA;Biomarker

INTRODUCTION

Colorectal cancer(CRC)is a common malignant tumor of the digestive system,which has a high incidence and mortality,accounting for 10% of all cancer incidences and 9.4% of deaths worldwide[1].The major reason for the high mortality rate of patients with CRC is the high heterogeneity and metastasis.Tumor microenvironment(TME)provides the environment for the growing,developing and maturing processes of cancer cells,whose special structure and composition have a great influence on the growth and metastasis of malignancies,including CRC[2].Therefore,the study of the CRC microenvironment enables us to have a deep understanding of the mechanism of tumorigenesis and metastasis of CRC and is of great significance for evoking novel therapeutic strategies for metastatic CRC.

Exosomes are extracellular vesicles(EVs)secreted by various cells,which are actively involved in biological growth and development,immune system response,anti-tumor activity,mediating tumor metastasis and other biochemical reactionsin vivoandin vitro[3].Exosomes originate from the endocytosis of cells and are released after a series of transport to form intralumenal vesicles(ILVs)[4].It is confirmed that exosomes carry cargo,such as proteins and miRNAs,that promotes tumor initiation,metastasis,and therapeutic resistance of cancer cells through intercellular communication in TME[5].In different types of exosome-loaded biomolecules,miRNA plays the main regulatory role in the expression of downstream genes.As one kind of non-coding single-stranded RNA molecule,miRNAs was proved to be involved in regulating the process of protein synthesis[6,7].A large number of studies have shown that exosomal miRNAs are highly expressed in a variety of tumors,and since exosomal miRNAs can be isolated and detected from body fluids,the exosomal miRNAs may become novel markers for tumor diagnosis[8].

Exosomes,on the other hand,act as communication mediators,carrying contents that function not only between cancer cells,but also between cancer cells and stromal cells,which is one of the main mechanisms by which exosomes participates in tumor metastasis.In colon cancer cells,exosome miRNAs can play a regulatory role in the initiation and metastasis of colon cancer through different signaling pathways,such as WNT pathway[9]and transforming growth factor beta(TGF-β)pathway[10].It also plays an essential role in regulating epithelial-mesenchymal transition(EMT)formation,extracellular matrix(ECM)remodeling and premetastatic niches(PMN)formation,which are vital for tumor metastasis.Therefore,this article focused on the investigation of miRNA in exosomes,comprehensively analyzed the function and mechanism of miRNA in CRC metastasis and its effects on ECM remodeling,EMT,angiogenesis and PMN formation during metastatic processes and described the application of miRNA in exosomes as the novel biomarkers for the diagnosis and treatment of metastatic CRC.

TME PLAYS AN ESSENTIAL ROLE IN THE METASTASIS OF CRC

The construction and function of TME

TME,a complex and constantly changing system as the "soil" of tumor cell growth and development,is mainly composed of ECM,stromal cells and immune cells,which can be divided into an immune microenvironment dominated by immune cells and the non-immune microenvironment dominated by stromal cells[5].The former contains both innate and adaptive immune cells,such as macrophages/dendritic cells(DC)and T lymphocytes,mediating the immunosuppressive function.Among them,tumor-associated macrophages(TAMs)and regulatory T cells(Tregs)performed the main immunosuppressive role by helping the immune escape of tumor cells and promoting the malignant development of tumors.On the other hand,the non-immune microenvironment mainly including fibroblasts,stromal cells and endothelial cells,was also involved in the development of malignancies.Cancer-associated fibroblasts(CAFs)were found to release stromal cell-derived factors and pro-angiogenic factors to promote tumor cell growth and angiogenesis process,while vascular endothelial cells mainly mediate tumor angiogenesis,jointly contributing to tumorigenesis and metastasis.Due to its complexity and heterogeneity with a close impact on tumor cells,TME has been widely studied in the field of cancer therapy[11].

Since the role of TME in cancer has been reported before,the effect of T lymphocyte migration in TME was the focus of the research on tumorigenesis.It is discovered that innate immune responses not only indirectly control the production of T lymphocytes,but also directly shape TME through the production of cytokines.The following section will demonstrate the solely different roles of innate immune response cells in TME,including macrophages,DC,neutrophils,natural killer cells(NK)and bone marrow-derived suppressor cells(MDSC),as well as the non-immune microenvironment.

The role of TME in mediating the metastasis of CRCs

Immune cells:Among all innate immune cells,there is no doubted that macrophages derived from monocytes play an indispensable role,which is the first activated by pathogens and subsequently evoking the immune activation state[12].During the tumorigenesis and development processes,TAMs are classified into classical inflammatory “M1” and alternative immunosuppressive “M2” activation modes[13].

M1 macrophages have pro-inflammatory,immune-stimulating and anti-tumor properties,which produce interleukin(IL)-1β,IL-6 and tumor necrosis factor α(TNF-α),participating in immune stress of the body[14].Nevertheless,in the colitis model,the proinflammatory effect of M1 TAMs inducing an inflammatory response,is a risk factor for CRC,indicating that the effect of M1 TAMs on CRC will be judged by the specific environment[15].M2 macrophages,highly infiltrated in most types of cancers,have immunosuppressive and tumor-promoting properties[16-18].In colitis models,Wanget al[19]discovered that the density of M1 and M2 TAMs changed in the inflammation-carcinoma sequence,and the total number of TAMs gradually increased along with tumor metastasis[19].Cultured with M1 TAMs conditioned medium,CRC cells were found to accelerate pro-apoptotic morphological changes,while those in the M2 TAMs medium promoted cell proliferation and increased the expression of antiapoptotic markers[20].TME with increased IL-4 cytokines,enhanced the immunosuppressive effect of M2 TAMs,promoting tumor growth and progression as well as the increase of M2 TAMs[21].Vascular endothelial growth factor(VEGF)was also secreted by M2 TAMs to promote tumor angiogenesis through conjunction with other cells in TME[22,23].

On the flip side,M2 TAMs was also found to be involved in remodeling ECM and promoting EMT,to accelerate the invasion and metastasis of CRC[24,25].Afiket al[26]conducted transcriptome and proteomic analyses in TAM of CRC and found that they are enriched in molecular features related to ECM remodeling[26],especially the expression of matrix metalloproteinase(MMP)[27].TGF-β was also contributed to enhancing ECM remodeling and the EMT process,which is produced by M2 TAMs[28].Herbeuvalet al[29]demonstrated the production of IL-10 by CRC cells,which was induced by TAMderived IL-6 and recruited transcription factor,signal transducers and activators of transduction3(STAT3)[29],while M2 TAMs could promote CRC immune evasion by secreting immunosuppressive cytokines,IL-10 and TGF-β,and suppress the activities of T lymphocytes[30].These findings indicate the promoting role of M2 TAMs in TME to accelerate CRC progression and invasion.

DCs,key players in the innate immune system,have high antigen presentation,through recognizing,capturing,and presenting the antigens to T cells in lymphoid organs.In cancer,DCs are specifically referred to as tumor-infiltrating DCs,which often exhibit immune stimulatory phenotypes in TME,through secreting inflammatory cytokines and prime effector T cells[31].Orsiniet al[32]confirmed that the antigen presentation ability of DCs was impaired in CRC patients,suggesting the immune stimulatory capacity of DCs can be inhibited by CRC cells to promote the development of cancers[32],while removed from the such environment,the ability to process antigens to T cells of DCs will be regained[33].It is found that immunosuppressive factors,such as VEGF,IL-10,and TGF-β secreted by cancer cells were involved in inhibiting DCs maturation and antigen presentation[34,35].In CRC,myeloid DCs are the most common subtypes,which are increased in frequency at the leading edge of tumor invasion and associated with lymph node invasion[36].Hsuet al[37]found the high expression of C-X-C motif chemokine ligand 1(CXCL1)in DCs obtained from CRC patients,enhancing the migration and stemness of cancer cells[37].Additionally,the composition and function of DCs can be influenced by the unique TME of different types of cancer,even in different subtypes within the same malignancies[38,39].

Neutrophils,the primary responders in acute inflammation,are the first line of defense against pathogens,by producing neutrophil extracellular traps(NETs)and engulfing invading microorganisms[40].It is reported that NETs dissolved ECM through MMP8/9 protease and improved tumor invasion and angiogenesis by releasing VEGF[41,42].The EMT process was also induced by NETs for tumor cells to break through the vascular wall and enter the circulatory system,thus promoting the immune escape of tumor cells[40,41].As part of the innate immune response,tumor-associated neutrophils(TANs)are similarly classified into the tumor-suppressive N1 and tumor-promoting N2 phenotypes.N1 TANs are the main type in the early stage of tumorigenesis,performing anti-tumor function through secreting type I interferon and activating IL-18 from NKs,while N2 TANs increase during the tumor development gradually,promoting tumor progression through increasing the level of reactive oxygen species and inhibiting the function of T and NK cells[43].Interestingly,in CRC,the production of TGF-β in TME polarized TANs from N1 to N2 phenotype,contributing the immune evasion by activating TAN-secreted MMP-9 and inhibiting the proliferation of T cells[33,44].

In addition,other immune cells,such as MDSCs,NK and Tregs also have been reported to be involved in the occurrence,development and metastasis of CRC.The function of MDSCs in TME was confirmed as suppressing the immune by inhibiting T cells and innate immune regulation,as well as contributing to the formation of PMN,maintenance of tumor stemness and promotion of angiogenesis[45].As non-specific innate immune cells,NKs performed cytotoxic effects through secreting killing mediators,such as perforin,NK cytotoxic factor,and TNF-α,thereby limiting the metastatic growth of tumor cells rather than the proliferation of primary tumor cells[46,47].Enhancing NK cytotoxicity is speculated as a novel way to prevent cancer metastasis.Tregs,one of the important factors for maintaining immune tolerance,are effective mediators of immunosuppression,negatively correlated with the prognosis of patients with malignant tumors[48].In CRC,the contradictory effects of Tregs were reported,which were related to TME status[49].

Stromal cells:CAFs are one of the most abundant stromal components in solid tumors,which play an important role in tumorigenesis,angiogenesis,metastasis and invasion,and chemotherapy resistance of malignancies[50].Similar to TAMs,CAFs promote the metastasis of cancer cells through remodeling ECM and promoting EMT[51].By secreting collagen,fibronectin and MMP,as well as increasing VEGF levels,CAFs reorganize ECM components and form a directional migration trajectory available to tumor cells[52,53].Additionally,expression of the collagen cross-linking enzyme lysine oxidase-like 2(LOXL2)in CAFs is,to a certain extent,associated with a high recurrence rate,poor overall and disease-free survival in patients with CRC,since CAFs stimulate the EMT process through LOXL2 elevation[54].Moreover,CAFs also promote immune evasion by restraining T cell function and promoting the polarization of TAMs,which was also inhibited by the high levels of TGF-β present at the edge of tumor invasion,derived from CAFs mainly[44,55].Zhanget al[56]revealed that CXCL8 secreted by CAFs attracts monocytes to TME of CRC and promotes the polarization of M2 TAMs,further promoting immune suppression[56].

Mesenchymal stem cells(MSCs)are a kind of pluripotent stem cells with self-renewal and multidirectional differentiation abilities,participating in tissue generation and repair in a variety of tissues.In many types of tumors,the cancer-associated MSCs are reprogrammed by tumors and have significant effects on the structure and function of TME through enhancing EMT and angiogenesis processes.What is noteworthy is that MSCs are the only one capable to produce large amounts of exosomes[57].Utilizing secreting exosomes,MSCs transfer genes carried by cancer cells to other tissues and promote the formation of PMN,thus affecting the proliferation and metastasis of cancer cells[58].However,the function of MSC-derived exosomes in cancers is controversial and needs further investigation[59].

ECM:Along with immune and stromal cells,ECM is also the important structural and biochemical support in TME,composed of a variety of extracellular proteins and macromolecules,participating in and controlling cell growth,migration,metabolism and other activities.It is found that ECM is mainly composed of collagen,non-collagen,elastin,and proteoglycans[60].During tumor progression,the structure and function of ECM can be remodeled by the cells in TME,including immune and stromal cells[61].Regarding cancer metastasis,the remodeling enzymes MMP-2/9 against collagenase in CRC was increased to degrade type IV collagen,resulting in the loss of ECM support and enhancement of tumor cell viability and aggressiveness[62,63].The fibrotic response is another reason for biomechanical changes,like tumor sclerosis,which is mainly caused by the TGF-β-mediated activation of CAFs[64].Stiffness in CRC,usually in collagen-rich regions,is associated with metastasis and the EMT process[65,66].

As mentioned above,immune cells,stromal cells and ECM in TME all mediate the tumorigenesis,development and metastasis of types of cancer.During different processes,exosomes as bilayer vesicles containing complex RNA and proteins,have a non-negligible function in intercellular communication in the process of tumor metastasis.Uncovering the function and mechanism of exosomes will provide a new trend for anti-cancer research and benefit patients with CRC.

EXOSOMES INTERACTING BETWEEN CANCER AND TME

In recent years,exosomes,as a newly proposed concept,have attracted much interest in their role in tumor growth and metastasis.Numerous studies have shown that exosomes and their cargoes promote tumor cell genesis and metastasis through cell-to-cell communication in TMEs[5,67,68].Under normal conditions,the individual cells and extracellular matrix of the body complement each other to form a healthy ecological niche[69,70].When pre-metastasis niches are formed in the body,tumor stem cells begin to survive and proliferate,and induce other cells to participate in tumor formation and metastasis[71],so as to construct a TME suitable for tumor cell growth and propagation.It is confirmed that exosomes play an important role in this process.It can have large or small effects on different tumorigenic pathways in TME,including tumor dryness,angiogenesis,tumor metastasis and EMT formation[72].In addition,other studies have shown that the trigger of tumor is not only caused by sufficient gene mutations,but more by functional changes of different interacting mediators in TME[73,74].In view of the important role of exosomes in the occurrence,development and metastasis of cancer,we will elaborate on the origin,development,cargos and function of exosomes,as well as the role of cell-to-cell communication of exosomes in cancer.

The development and concept of exosomes

Exosomes,first discovered in sheep reticulocytes,were simply considered as cellular vesicles for excreting cellular wastes.Soon,the new intercellular communication mode represented has made outstanding contributions to the monitoring,diagnosis and treatment of diseases.Particularly,tumorderived exosomes(TDEs),are the main focus of the research in cancers.Exosomes and/or their vectors have been reported as biomarkers,therapeutic targets and even vectors for anti-cancer drugs[75].Therefore,understanding the formation and transport of exosomes and their relationship with the TME is of great significance for studying the function of exosomes in cancer.

Exosomes are EVs encapsulated by lipid bilayers with a diameter of 40-160 nm,originating from the endocytic pathway of cells[75].The biogenesis of exosomes includes four processes,that is membrane invagination,endosome formation,endosome maturation,and multivesicle bodies(MVBs)release(Figure 1).First,the cell membrane invaginates and generates small vesicles by endocytosis,which contain cell surface proteins and soluble proteins related to the extracellular environment.Next,the vesicles fuse to form early endosomes(EEs),which share their contents and membrane composition through clathrin and vesicle protein pathways,which is the main reason for the diversity and heterogeneity of exosomes.At the same time,the trans-Golgi network and endoplasmic reticulum also contribute to the formation of EEs.Along with the acidification of the contents and the entry of some "cargoes",such as cytoplasmic miRNAs,enzyme molecules and heat shock proteins(HSP),EEs gradually become mature late endosomes,also known as cellular MVBs containing ILVs.Finally,MVBs fuse with the plasma membrane and release ILVs to form exosomes,while the rest part fused with lysosomes or autophagosomes for degradation[76,77].

Figure 1 The biogenesis of exosomes.

The endosomal sorting complex required for transport(ESCRT)is essential for the classical pathways to facilitate the formation of ILVs,composed of four complexes,ESCRT-0,-I,-II and -III[78].Among them,ESCRT-0 and -I is responsible for the recognition of ubiquitinated proteins,while the combination of ESCRT-I/II initiates the activation of ESCRT-III,which combined with the ESCRT-I/II complex,cleaved the plasma membrane and releases buds into the endosomes to form ILVs[79].

Interestingly,ESCRT-independent exosome was first found in melanoma,involving CD63,one tetraspanin in the lysosome/endosome-associated organelle melanosomes[80].Recently,Weiet al[81]reported an ESCRT-independent exosome pathway and demonstrated Ras-related protein Rab-31(RAB31),a small GTP-binding protein related to vesicle-mediated transport,drives ILVs formationviathe Flotillin domain of flotillin proteins and recruited GTPase-activating protein to prevent the fusion of MVEs with lysosomes and suppress MVEs degradation,thereby enabling the secretion of ILVs as exosomes[81].

Meanwhile,lipids,as the basic construction of exosome formation,located in the inner membrane of cellular MVBs with high density,such as lysobisphosphatidic acid(LBPA),leads to the composition of ILVs and then the exosomes[82].Programmed cell death 6 interacting protein(PDCD6IP),functioning within the ESCRT pathway in the abscission stage of cytokinesis,interacted with LBPA,promoting the internal germination of the MVB membrane[83].It is found that exosomes can alter the lipid composition of target cells by transferring molecules to them,especially cholesterol and sphingolipids,and subsequently affect the cellular homeostasis of targets[84].Since the ceramide-rich fraction of endosomes is highly sensitive to inward plasma membrane germination,loss of sphingomyelin and subsequent converter of sphingomyelin to ceramide results in inhibition of ILVs formation[85].

Exosomes have different functions in different physiological and pathological processes,according to their size,content,origin,contents and influence on recipient cells,which is called exosome heterogeneity.In the process of MVBs formation,it restricts the uneven invaginations of the membrane,resulting in different total contents of liquid and solid contained in the vesicles formed by MVBs,which may be the cause of the size and content heterogeneity of exosomes[86].Proteomic analysis of breast cancer cells and their exosomes identified epithelioid or mesenchymal origin cells according to the enrichment degree of different proteins and nucleic acids in exosomes,which reflects the specific sorting mechanism in the formation of exosomes[87].Exosome heterogeneity gives them unique characteristics based on different types of cells or tissues of their origin,including absorption by specific cells and tendency to certain organs,which also provides the possibility for the location and migration of cancer cell metastasis[87].

The function of cargos carried by exosomes in physiological and pathological situations

Exosomes,involved in diverse processes as communicators between cells,are dependent on the presence of a great of biologically vital “cargos” in them,such as proteins,mRNAs,non-coding RNAs(ncRNAs)and various metabolic enzymes,all of which are bioactive substances to determine the type and function of exosomes[86].The proteins in exosomes can be divided into the following four types,according to the discrepant structure and function,that is membrane transport and fusion-related proteins,tetraspanins,MVBs-related proteins and other proteins involved in cell adhesion and skeleton construction[88].

Membrane transport and fusion-related proteins include annexin,RAB and HSPs,which were involved in regulating plasma membrane fusion and release during exosome formation[89].Among them,the regulating function of the RAB family is dependent on the surrounding environment and cell types.For example,Ostrowskiet al[89]found that RAB27a and RAB27b control the exosome secretion pathway in different steps in cervical cancer[89],while in breast cancer,RAB7 was identified as the key regulator for exosome release in cancer cells[90].However,in the central nervous system,the inhibition of RAB35 function leads to intracellular accumulation of endosomal vesicles and impairs exosome secretion in oligodendrocytes[91].In the HSP family,HSP90 is a major intercellular chaperone protein,ensuring the normal folding and function of protein under normal conditions.However,in tumors,HSP90 plays the anti-apoptotic function by promoting abnormal protein folding,protein balance and proteolysis[92].Lauwerset al[93]found that HSP90 is membrane-deformable to mediate the fusion of MVBs and plasma membranes and facilitate the exosome release[93],while exosomes lacking HSP90α,a key subtype of Hsp90,will lose important cell-to-cell communication from tumor cells to stromal cells to promote cell movement[94].

Tetraspanins are demonstrated to facilitate the entry of specific cargos into exosomes,including CD9,CD63,CD81,CD82,CD106,tetraspanin 8(Tspan8),and intercellular adhesion molecules-1(ICAM-1)[95].PDCD6IP and TSG101 are the main MVBs-related proteins to regulate exosome formation in MVBs[96].The analysis of exosomal protein composition displayed that a series of fusion and transfer proteins,as well as cytoskeletal proteins,such as actin,myosin,and tubulin,are non-specific and common in all exosomes[97].Generally,the proteome of exosomes mirrors that of the protocell,but it is worth noting that the proteins in exosomes from cancer cells can selectively induce specific signals in the recipient cells,leading to the occurrence of carcinogenic changes[98,99].

Apart from proteins,ncRNAs referring to functional RNAs without encoding potential,also play an indispensable role in exosomes,including miRNAs,long ncRNAs(lncRNAs)and circular RNAs(circRNAs).Through binding to the 3' non-coding region of target mRNA,miRNA induced the inhibition of protein translation,involved in precise,fine and dynamic intercellular communication during human reproduction,pregnancy and embryonic development[6,7].Molecular profiling indicated that miR-148a,let-7b,miR-148a,miR-375,and miR-99a associated with the expression of IL-10/13 in spermatogenic exosomes from multiple human donors are enriched,suggesting that exosomes may be involved in reproductive immunity through secreting miRNAs[100].

The analysis of tumor-related studies manifested that miRNA in exosomes is highly expressed during the development of lung cancer,prostate cancer and other cancers,therefore,it may be used as a potential biomarker or grading basis for cancer prognosis[101-103].Moreover,miRNAs in exosomes can be isolated from body fluids and detected,which means that exosomal miRNAs have an advantage in becoming novel biomarkers for non-invasive utilizationin vivo[8].Puiket al[104]use miRNA profiling to identify miR-21,miR-26,miR-122 and miR-150 as potential blood biomarkers for the non-invasive diagnosis of cholangiocarcinoma[104].In addition to being used as diagnostic markers,exosomes can also be used as predictive therapeutic markers.Sunet al[105]found that in the exosomes secreted by CSCs and corresponding mother cells,six miRNAs including miR-1246,miR-424-5p,miR628-5p,miR-1290,miR-675-3p and miR-590-3p were up-regulated,whereas five miRNAs such as miR-224-5p,let-7b-5p,miR-615-3p,miR-122-5p and miR-5787 were the opposite,which suggest that miRNAs may contribute to the early diagnosis of gastric cancers and are expected to be a potential biomarker for predicting patients with a high risk of gastric cancer[105].Furthermore,exosomal miR-222-3p can be used as a predictive biomarker of gemcitabine sensitivity,while miR-208a can be used as a predictive biomarker of radiation response[106,107].

LncRNA is a kind of ncRNA with a transcription length of more than 200 nucleotides,which plays essential roles in a series of life activities,such as dose compensation effect,epigenetic regulation,cell cycle regulation and cell differentiation regulation[108].In cancer cells,lncRNA has the function of "cell messenger",which can be selectively packaged into exosomes to regulate tumor growth,metastasis and angiogenesis[109].For example,Conigliaroet al[110]discovered that exosomes secreted by CD90 cells and CSCs can be taken up by human umbilical vein endothelial cells(HUVECs)and deliver lncRNA H19 to the corresponding target cells through adhesion to CD90 cells and HUVECs,and subsequently,synthesis and release of VEGF to stimulate angiogenesis[110].

CircRNAs are another main type of ncRNA in exosomes,as endogenous RNAs in all eukaryotic cells.Different from traditional linear RNAs containing 5' and 3' ends,circRNA molecules presenting as a closed ring structure is not affected by RNA exonuclease,so their expression is more stable and not easily degraded.This strong stability may enable non-invasive detection in body fluids,and the absence of the 5’ to 3’ polar structure and poly-adenosine tail makes it inherently resistant to nucleic acid degrading enzymes targeting the 5’ and 3’ ends[111].Recently,circRNAs rich in miRNA binding sites,are reported to serve as the miRNA sponge in cells,which dissolves the inhibitory effect of miRNA on its target genes and increases the expression level of target genes,making circRNA as a competitive inhibitor of miRNA to regulate the translation and function of the downstream protein[112].Through regulating target genes and miRNA,circRNA plays an important role in the proliferation,invasion,metastasis and progression of tumor cells in a variety of cancer biological processes.For example,circ-IARS expression in exosomes is up-regulated in the plasma of patients with in situ metastatic lung cancer,which,however,down-regulate the levels of miR-122 and tight junction protein 1(TJP1)significantly but up-regulate the levels of RhoA and RhoA-GTP in exosome,thereby increasing the expression and adhesion of F-actin,enhancing endothelial permeability and promoting tumor invasion and metastasis[113],suggesting that the expression level of circRNA is highly correlated with clinicopathology and may serve as biomarkers with diagnostic,prognostic and predictive properties[111].

The intercellular communication of exosomes contributed to tumorigenesis and metastasis

The release of exosomes and uptake by recipient cells provides the basic mechanism of the intercellular communication function of exosomes,which is occurred in almost all types of cells in mammals[114].After being released by cells,exosomes enter the blood,saliva,urine,cerebrospinal fluid,breast milk and other body fluids through autocrine and paracrine methods,after which reach other cells and tissues in the distance,producing a remote regulation effect.Interestingly,exosomes also influence the origin cell itself through the autocrine pathway based on specific receptors.

Within the exosome of chronic myeloid leukemia cells,cytokine TGF-β1 binds to its receptor and promotes tumor growth through an autocrine mechanism by activating anti-apoptotic pathways[115].The exosomes were also involved in maintaining cellular homeostasis,through exosome secretion with harmful cytoplasmic DNA from cells[116].The inhibition of exosomes will cause accumulated DNA in the cytoplasm,associated with increased reactive oxygen species-dependent DNA damage reaction,thus leading to cell cycle arrest or apoptosis.Therefore,cell secretion of such DNA-containing exosomes contributes to cell survival and homeostasis maintenance[116].

Through the paracrine pathway,exosomes mediate intercellular information transmission and microenvironment regulation,especially in the field of tumor therapy.Exosomes contain cargoes such as proteins,DNA,mRNA,ncRNA and metabolic enzymes described above,acting as external stimuli for recipient cells,triggering the uptake of exosomes and changing their biological phenotypes.The uptake of exosomes by recipient cells is not random but is accomplished through the recognition of exosome surface proteins that trigger interactions including endocytosis,receptor-ligand binding,and membrane fusion.Yanget al[117]found that breast cancer cells release and transfer exosomes containing programmed cell death ligand 1(PD-L1)to other cancer cells with low or even no PD-L1 through the secretory pathway,to help cancer cells escape immune monitoring[117].In CRC,Demoryet al[118]reported that the transfer of mutant Kirsten rat sarcoma viral proto-oncogene(KRAS)to cancer cells with wild-type KRAS receptorsviaexosomes can promote the invasion of cancer cells[118].

In cancers,the intercellular communication of exosomes is not only limited between cancer cells but also occurred between cancer cells and stromal cells,which is one of the important mechanisms of distant metastasis of tumors.Shimodaet al[119]investigated the molecular mechanism of CAF-derived tumor progression and demonstrated the metalloproteinase ADAM10 as the important factor in CAFderived exosomes to enhance the viability of cancer cells through activating Notch receptor and increasing aldehyde dehydrogenase expression[119].Moreover,the absorption of CAF-derived exosomes by cancer cells caused the increase of glycolysis and glutamine-dependent reductive carboxylation,which promotes the growth of tumors under nutrients deficiency or nutrient stress,as the carry of amino acids,lipids and intermediates in exosomes[120].

Conversely,exosomes from cancer cells also act on stromal cells,imbuing them with the properties to be transformed into cancer cells and inducing the formation of pro-TME.Choet al[121]demonstrated that exosomes from breast cancer cells triggered the transformation of MSCs in fat into tumor-associated myoblastsviathe TGF-β-mediated signaling pathway[121].Also,miR-9 in exosomes derived from triple-negative breast cancer can induce EMT in tumor cells through down-regulating E-cadherin in fibroblasts,and promote the transformation of fibroblasts into CAFs,thus stimulating tumor migration[122].The hallmark,angiogenesis in cancer was also promoted by TDEs promoting endothelial cell proliferation and angiogenesis[123].Nazarenkoet al[123]found the cell surface Tspan8 as the contributor to exosome-induced endothelial cell activation,in which Tspan8-α4 integrin in exosomes facilitates the binding and absorption of exosomes to endothelial cells and promotes angiogenesis accordingly[123].Even under hypoxia conditions,the stimulating effect of exosomes on angiogenesis was enhanced in cancers[124].Hsuet al[125]found that hypoxic lung cancer-secreted exosomes with miR-23a not only cause the accumulation of hypoxia-inducing factor-1α(HIF-1α)in endothelial cells but also target TJP1 to increase vascular permeability and cancer migration possibility[125].

Interestingly,mRNA delivery by exosomes to recipient cells is a rare case,while it was increased in those with acute inflammation(peritonitis)or chronic inflammation(subcutaneous tumors)[126].Engineered exosomes have been found to conduct certain functions in inducing innate and adaptive immune responses in cancers[127].The mechanism mainly involves the antigen presentation,activation of the intracellular cGAS-STING signaling pathway,intercellular miRNA transfer,and immunoregulation of exosome surface presenting molecules,which may be related to different contents wrapped in exosomes and their effects on the recipient cells[114].

First,the antigen-presenting peptides were direct presented by antigen-presenting cells(APCs),such as DCs or Tregs to specific T cells and induce activation of themviacarrying exosomes containing costimulatory signals[114].A single intradermal injection of APC-derived exosomes significantly induced tumor eradication and growth delay in the mouse model[114].Simultaneously,exosomes secreted by human DCs promote the production of interferon(IFN)production and thus enhance antigen presentation,regardless of the maturation of the exosomal origin cells[128].

Then,the activation of the intracellular cGAS-STING signaling pathway was induced by genomic DNA in exosomes to generate an anti-tumor response[129].The production of IFN was enhanced after the contact between DCs and T cells with the uptake of exosomes through the activated cGAS-STING signaling pathway[130].Although the uptake of exosomal DNA by recipient cells may change their signaling,such alternations may be beneficial in the context of cancer[116],as the inhibition of epidermal growth factor receptor(EGFR)in cancer cells may lead to an increase in DNA in their secreted exosomes,helping to induce cGAS-STING signaling in DCs to inhibit tumor growth[131].In contrast,the uptake of tumor-derived exosomal DNA by circulating neutrophils enhances the production of tissue factors and IL-8,which may indirectly worsen cancer by promoting inflammatory responses[132].

Next,in the process of cell-to-cell communication,exosomes influence signaling pathways and gene expression in recipient cells through miRNA transfer to regulate the immune response.Immature DCs have a strong ability to phagocytose antigen,but their weak ability to present antigen makes the activation of DCs to specific T cells limited.In addition,miR-212-3p in TDEs promoted the immune escape of cancer cells by suppressing transcription factor RFXAP in DCs[133].However,miR-222-3p promoted the polarization of TAMs to M2 phenotype and generated an immunosuppressive microenvironment through a down-regulating suppressor of cytokine signaling 3(SOCS3)[134].

Finally,immunomodulatory molecules such as PD-L1 and Fas cell surface death receptor ligand(FasL)on TDEs accelerate the failure and apoptosis of T cells,thus regulating the immune response and promoting the progression of tumors[135,136].On the contrary,mast cell-derived exosomes with CD86,lymphocyte function-associated antigen 1,and ICAM-1 on their surface,induce the proliferation of B and T immune cells and enhance anti-tumor activities[137].

Despite how the cargoes carried in exosomes act and affect recipient cells have been extensively studied,the mechanism of how exosomes selectively package those cargoes remains unclear.Through comparing miRNA content in CRCs exosomes of mutant and wild-type KRAS,Chaet al[138]found that the exosomes of wild-type KRAS cancer cells were enriched with miR-10b,while the others were enriched with miR-100[138],suggesting that exosomes selectively pack the cargo under an unknown condition for further investigation.

THE MECHANISM OF THE METASTASIS OF CRC RESULTING FROM THE EXOSOMES BY MIRNA

As described above,miRNA,a vital ncRNA,is responsible for negatively regulating the expression of up to 60% of the protein-coding genes,and play important role in the processes of malignancies[139].Since Michaelet al[140]described the association between miRNAs and CRC,the involvement of miRNAs in the occurrence of CRC evoked plenty of investigation to explore the molecular mechanism of miRNA regulating CRC[140,141].As the main content of exosomes,miRNAs are also involved in certain control and regulatory functions on tumor proliferation,EMT and ECM remodeling,and the formation of PMNs.

EMT promotes the metastasis of CRC through miRNAs

It is accepted that EMT is an important biological process in which epithelial cells become cells with mesenchymal phenotypic characteristics and acquire the ability to migrate[142].During the EMT process,epithelial cells lose cell polarity and the ability to connect with the basement membrane,so that the genome of cancer cells can be transferred between cells through exosomes,thus gaining aggressive abilities of migration and invasion,anti-apoptosis and ECM degradation[143].First,epithelial cellassociated proteins located in the primary tumor of CRC are down-regulated,while mesenchymal adhesion proteins are up-regulated,and cancer cells,especially with mesenchymal characteristics,secrete abundant exosomes to invade local tissues[144].Next,the locally proliferating cancer cells break through the basement membrane and propagate through the circulatory system to distant organs through specific signaling mechanisms involving exosomal miRNAs.Finally,these mesenchymal cells reprogram the microenvironment of distant metastases,inducing the formation of metastatic TMEs and angiogenesis[145,146].

EMT-related transcription factors are confirmed as the key regulators during this process.Snail family transcriptional repressor(Snail1/2),belonging to the Zinc finger transcription factor,can destroy the normal tight junction between cells,while zinc finger E-box binding homeobox(ZEB1/2)can inhibit the expression of adhesion protein in epithelial cells and promote the initiation of EMT,all of which can be regulated by miRNAs.In cancers,the inhibition of EMT by p53 to prevent metastasis,downregulated Snail and ZEB1viainduction of miR-34,which also suppresses the expression of the stemness factors,BMI1,CD44,CD133 and c-MYC.Interestingly,Siemenset al[147]reported a double-negative feedback loop between miR-34 and Snail,that is Snail and ZEB1 conversely inhibit the expression of miR-34 through binding to E-box regions in miR-34 promoters[147].MiR-200 family members are another group involved in the regulation of ZEB1 by forming a double-negative feedback loop,to reduce the migration and invasion of CRC cells[148].Also,miR-429,the member of the miR-200 family,was found to reverse TGF-β-induced EMT by targeting one cut homeobox 2(ONECUT2),thereby inhibiting cell migration and invasion,and its activity is significantly down-regulated in CRC[149].The downregulation of other tumor suppressor factors,mainly miR-335,miR-132 and miR-192,is associated with the invasion and metastasis of CRC by increasing the expression of their ZEB2 target genes[150-152].

Additionally,twist family basic helix-loop-helix(bHLH)transcription factor(TWIST),containing the bHLH domain,inhibits mesenchymal cell protein expression to promote the EMT process[153],which can be suppressed by miR-145[154].Prospero homeobox 1,another transcription factor,inhibit the expression of E-cadherin to promote the occurrence of EMT,which was achieved by binding to the promoter of pre-miR-9 and triggering its expression[155].The FOX family of transcription factors,FOXQ1 and FOXM1,are also involved in the induction of EMT,and their expressions are negatively correlated with the low expression of miR-320 in CRC,which reduces the expression of E-cadherin[156].

TGF-β,the acceptable EMT-inducer,can activate the EMT process by regulating downstream factors,such as miR-187,which inhibit the expression of SMAD family member 4(SMAD4),the maintainer of epithelial phenotype in CRC[10].Furthermore,miR-20a overexpression can also facilitate EMT by inhibiting SMAD4 expression to promote the metastasis of CRC[157].Interestingly,SMAD7 is the inhibitor of SMAD4,and the inhibition of SMAD7 can initiate TGF-β-induced EMT.A series of miRNAs,like miR-4775,miR-1269,and miR21 have been approved to promote the metastasis of CRC in a SMAD7/TGF-β-dependent manner[158-160].

Regarding the Wnt/β-catenin signaling pathway,the enhanced effect of miR-150 on EMT in CRC is generated by targeting the cAMP response element-binding protein signaling pathway[9].Interestingly,Wnt-induced EMT is not only through the Wnt/β-catenin signaling pathway,but also partially activated through inhibiting negative transcription factors by miR-34a,miR-145 and miR-29b[161,162].The loss of miR-145 function is negatively correlated with the EMT process and the downregulation of E-cadherin expression[163],while miR-29b inhibits β-catenin co-activators to block multiple β-catenin target genes and achieve the regulation of EMT in CRC[164].

After breaking through the basement membrane,CRC cells enter the circulation turning into circulating tumor cells(CTCs),responding to distant metastasis,referring to EMT-MET plasticity with promoting new invasion and metastasis,the important marker of metastasis when this characteristic exists in CTCs[165].Increased activity of MMP or decrease the function of tissue inhibitors of metalloproteinases(TIMPs)promote CTCs detachment from the primary location,which can be regulated by miR-375 to suppress MMP2 level in CRC cells and correspondingly inhibit the proliferation,migration and invasion of CRC[166].Caiet al[167]revealed that miR-194 promoted EMT-mediated metastasis in CRC through activating MMP2 function,while Xuet al[168]found that miR-20a performed a facilitated role during the EMT process through inhibiting TIMP2,resulting in increased activities of MMP2 and MMP9[167,168].

PMN formation is an important step in CRC metastasis,involving exosomal miRNAs

As distant metastasis of CRC is a major reason for clinical treatment failure and death in cancer patients,PMN is found to be a crucial factor of CRC metastasis,which is the formation of a microenvironment conducive to tumor metastasis at a specific site in the distant organ[169,170].Tumor secretory factors,recruitment of inhibitory immune cells and inflammatory polarization of matrix components are key factors involved in the formation of PMN[171].

TDEs are the main component of tumor secretory factors,secreted by cancer cells at the primary site of the tumor and transmitted to distant sites through autocrine or paracrine to recruit immune cells[171].The recruited immune cells,such as MDSCs,TAMs,and Tregs,induce the formation of the immunosuppressive microenvironment and subsequently secrete inflammatory cytokines to produce an inflammatory response and form an inflammatory microenvironment,which is conducive to the colonization and growth of CTCs.During this process,the increased tumor volume with a continuous proliferation of CRC cells leads to cells prone to hypoxia and nutrient deficiency,hence rapid angiogenesis can be found in the primary lesion.The pro-angiogenic factors secreted by the neovascularization will circulate with TDEs to the distant metastasis,promote angiogenesis at distant sites,and construct a perfect PMN to bear more tumor cells from distant metastasis[171].So Liuet al[171]proposed immunosuppression,inflammatory response,angiogenesis and increased permeability,lymphangiogenesis,organicity and reprogramming as the six characteristics of PMN,which make PMN the best choice for the settlement and proliferation of metastatic cancer cells[171].

Immunosuppression,an important contributor to the formation and development of PMN,is also the major reason for the survival and development of tumorsin vivo.Takanoet al[172]found that plasmaderived exosome miR-203 induced the differentiation of monocytes in distal organs into M2 TAMs of immunosuppressant phenotype,while Zhaoet al[173]reported that exosomal miR-934 also induced the differentiation of normal phenotype M1 TAMs into M2 TAMs,inducing the formation of immunosuppressive microenvironment[172,173].SOCS3 was down-regulated by miR-222-3p in TDEs,which promoted STAT3-mediated M2 polarization of TAMs and contributed to the immunosuppressive microenvironment[134].Wanget al[174]also demonstrated the enhancing role of exosomal miR-425-5p and miR-25-3p on M2 TAMs expression through the PI3K/AKT signaling pathway,to promote CRC metastasis to distant metastases[174].

TDEs in CRC were also reported to be involved in promoting T cell differentiation into Tregs,inhibiting normal immune cell function,and recruiting immunosuppressive cells into PMN[175].Other immune cells,such as MDSCs,DCs,and NKs can also be transformed into immunosuppressive phenotypes in TME,together constituting the immunosuppressive microenvironment for tumor metastasis[176].In addition to recruiting immunosuppressive cells to PMN,the immune escape of tumors ultimately needs to be realized by destroying the normal immunity of the body[177].Inhibition of T cell function,disturbance of normal NK cell function and immature reversal of DCs are all able to lead to the destruction of the normal immune mechanism of the body[133].Huanget al[178]demonstrated that lncRNA SNHG10 in TDEs participated in the TGF-β signaling pathway,inhibited the activity of NK cells,and damaged the normal anti-tumor immune function in CRC[178].

It should be noted that the activation of immune checkpoints is an effective pathway for the development of immunosuppression.PD-L1 derived from TDEs with highly similar function to the surface of tumor cells,can bind to its receptor on T cells to generate an immune examination response,effectively inhibiting the proliferation of T cells and inducing apoptosis,and destroying the anti-tumor function of positive T cells[136,179].In addition,CSCs-derived exosomal miRNA-17-5p inhibits normal immune cell function and promotes immunosuppression by targeting speckle-type POZ protein and promoting the expression of PD-L1[180].

During the formation of PMN,ECM remodeling is one of the essential links.In situ tumor cells colonize and proliferate in distant metastases,secreting exosomes and producing inflammatory cytokines,causing hypoxia and inflammatory responses in normal cells of metastases.In such an environment,a large number of cytokines such as VEGF,macrophage migration inhibitory factor,TGFβ,and immunosuppressive cells are recruited to participate in the formation of PMN[181].Similar to the ECM remodeling mechanism in the primary site,CAFs activated by TGF-β promote the fibrosis of ECM through the secretion of collagen and fibronectin,increase the hardness of ECM,and change its biomechanics[182].It is found that CRC-derived exosomal miR-10b promotes CAFs formation and leads to ECM fibronectin through the PI3K/Akt/mTOR pathway[183].Exosomal miR-1246 and miR-1290 advance the development of interstitial fibrosis by activating the expression of actin alpha 2 and profibrotic factors[184],while exosomal miR-139-5p and miR-21-5p degrade ECM proteins by promoting the expression of MMP2 and MMP13,thus accelerating the formation of PMN[185].

Interestingly,inflammation is not only involved in inhibiting the process of cancer but also found to promote tumor occurrence and metastasis.Inflammatory M1 TAMs,as a pro-inflammatory,immunostimulating and anti-tumor factor producing IL-1β,IL-6 and TNF-α,contributed to the development of CRC in colitis[15].Therefore,the inflammatory microenvironment caused by chronic inflammation significantly promotes the formation of PMN in distant organs during tumor growth and metastasis[186].Pro-inflammatory cytokines such as IL-1β,IL-6 and TNF-α are important factors in the inflammatory microenvironment,which directly or indirectly stimulate tumor survival,proliferation and metastasis[187].It is shown that low-density IL-1β,an important pro-inflammatory factor involved in innate immunity,could induce local inflammatory responses and lead to protective immune responses,while high concentration would result in inflammation-related cancer tissue damage[188].

Another chemokine,IL-6 stimulates the activation of T and B cells during the immune response to perform an anti-inflammatory role[189].Pucciet al[190]found that CRC tumor cell-derived exosomal miRNAs increase IL-6 secretion,thereby promoting inflammatory responses[190].High levels of IL-6 have been detected in serum detected in live tumors or biopsies from cancer patients,suggesting that the inflammatory effects of this cytokine may be related to the occurrence of cancer[191].MiR-21 carried by exosomes promotes the release of pro-inflammatory IL-6 and IL-21 and induces them into circulation,thus inducing the formation of an inflammatory microenvironment[192].

Although originally TNF-α was reported as an anti-tumor cytokine,high-dose recombinant TNF-α has been verified to induce tumor necrosis and promote the progression of tumorsin vivo[193].In addition,owing to the special biological environment of CRC,intestinal bacteria also promote the formation of an inflammatory microenvironment through secreting exosomes.The induction of E.coliderived exosome with miRNAs on the inflammatory microenvironment is achieved by increasing the expression of toll-like receptor(TLR)and promoting the secretion of pro-inflammatory cytokine IL-8[194].The exosomal miR-149-3p derived from enterotoxin bacteria disrupts normal gene transcription and leads to DNA damage and oxidative stress,which promotes the formation of an inflammatory microenvironment[195].Exosomal miRNA-21 and miRNA-29a promote CRC metastasis by acting on TLR7/TLR8 and inducing the formation of an inflammatory microenvironment in PMN[196].

Angiogenesis is another critical factor in PMN formation in CRC,which rapidly generates tumor cells providing oxygen,energy and nutrients for survival and metastasis in the case of hypoxia and nutrient deficiency.To form a suitable PMN for the metastasis of CRC,a variety of pro-angiogenic factors must reach the distal metastasisviaexosomes through blood circulation and be expressed.VEGF,fibroblast growth factor,platelet-derived growth factor,basic fibroblast growth factor,TGF-β,TNF-α,and IL-8 are the main angiogenic stimulator carried by TDEs[197].VEGF signaling pathway is the most promising target for angiogenesis and plays a key role in angiogenesis[198].Equally important to these proangiogenic factors are cell- or plasma-derived exosomes from various human tumors identified as effective inducers of angiogenesisin vitroandin vivo,which have the function of inducing closely related to the miRNA carried in exosomes[199].For instance,CRC-derived exosomal miR-21-5p improves the expression of VEGF and Cyclin D1,enhances vascular permeability and promotes angiogenesis[145].Exosome miR-25-3p promotes the expression of VEGF receptor 2,and regulates tight junction protein Claudin-5,resulting in the production of PMN in the liver and other sites of CRC patients[200].In addition,exosomal miRNA-92a-3p stimulates angiogenesis by increasing vascular endothelial cell division and participating in the regulation of the binding protein,Claudin-11[201].Zhaoet al[202]reported that CRC-derived exosome miR-1229 promoted metastasis of CRC by activating VEGF production and promoting angiogenesis[202].Exosome-derived miRNA-183-5p accelerates the generation of neovascularization in CRC metastasis,whereas exosomes secreted by neovascularization in PMN promote the metastasis of tumor cells from the primary site to specific organs and tissues[143].

MECHANISMS AND INFLUENCING FACTORS OF DRUG RESISTANCE INDUCED BY EXOSOMES

It is worth mentioning that exosomes have the role of inducing tumor drug resistance,which provides a new research direction to solve the drug resistance problem that has puzzled doctors and researchers for a long time.Exosomes secreted by drug-resistant cancer cells encapsulate chemotherapeutic drugs and transport them out of tumor cells[203],and the interaction of exosomes containing miRNA,mRNA and protein from cancer cells is also associated with tumor drug resistance[204].In summary,the mechanism of exosomes inducing drug resistance mainly involves drug expulsion,activation of antiapoptotic pathways,changes in signal transduction,and promotion of survival and proliferation of CSCs.

First of all,exosomes released by tumor cells help cells to expel cytotoxic drugs,related to the overexpression of P-glycoprotein[205].Although no reports on CRC,it is demonstrated that exosomes directly or indirectly regulate drug efflux pumps and thus influence drug resistance by regulating Pglycoprotein expression in breast and ovarian cancers[203,206].Second,acquired or intrinsic resistance to chemotherapy often prevents tumor cells from undergoing adequate levels of apoptosis,resulting in poor survival and treatment[207].Inhibitors of the apoptotic pathway are used to sensitize tumor cells to chemotherapy.In the clinical treatment of CRC,cetuximab-resistant CRC cells RKO have been found to induce cetuximab resistance by down-regulating PTEN and increasing AKT phosphorylation,which is related to apoptosis escape[208].Third,signaling pathways in drug-sensitive cells are altered by the uptake of drug-resistant cell-derived exosomes,including EGFR,Wnt/β-catenin,PI3K/AKT,PTEN,and mTORC signaling pathways that play important roles in tumor progression and drug resistance,whose abnormalities are associated with chemotherapy resistance[209,210].Huet al[211]reported that CRC cells secreted exosomes capable of inducing chemotherapy resistance,which caused drug resistance by promoting β-catenin stabilization and nuclear translocation and activating the Wnt/β-catenin pathway[211].Furthermore,miR-30a,miR-222,or miR-100-5p carried by exosomes may induce drug resistance in drug-sensitive cells by regulating MAPK or mTOR pathways[212].Lastly,exosomes induce drug resistance by promoting the growth and proliferation of CSCs[213].Plenty of stromal cells,such as CAFs and MSCs,promote the growth of CSCs by secreting exosomes[214].Exosomes derived from MSCs increase the proportion of CSCs by activating the Wnt signaling pathway and activating the 1/2 extracellular signal(ERK1/2),thus endowing CSCs with phenotypes,and inducing drug resistance in CRC[215].

Notably,CSC self-derived exosomes maintain stemness within TME by transporting their cargoes,thus enhancing resistance to different cancer therapies[216].The cargos include Hedgehog,Wnt,βcatenin,and other CSC-specific mRNAs,as well as proteins needed by CSCs to maintain self-renewal and other stemness.TDEs have been reported to carry different types of integrins and related ligands that are involved in the formation of cancer cell colonization and PMN,while integrin is the key drug resistance factor in cancer therapy in maintaining the phenotype and behavior of stem cells[217].

CLINICAL PERSPECTIVES

CRC is a highly heterogeneous,highly metastatic and fatal cancer,and tumor cell metastasis is the main reason for the high mortality rate of this cancer.In the process of diagnosis and treatment of CRC,the lack of specific symptoms causes great difficulties in the early diagnosis of CRC due to its similarity to non-cancerous intestinal diseases.At present,the diagnosis of CRC depends on clinical evaluation and imaging diagnosis.However,routine diagnosis such as radiographic imaging or histopathological analysis fails to detect early systemic spread of CRC[218],and colon cancer markers such as carcinoembryonic antigen(CEA)and CA19-9 have low sensitivity and specificity[219].In most clinical cases of CRC,surgery is the best treatment option,sometimes accompanied by chemoradiotherapy.However,due to limited diagnostic means,most patients are often diagnosed with advanced CRC and miss the optimal surgical opportunity.Therefore,the development of new and effective diagnostic biomarkers for CRC is essential for early detection and reduction of CRC mortality.

As EVs that play a key role in intercellular communication,exosomes contain proteins,miRNAs and other substances that are closely related to tumorigenesis,tumor cell survival,chemotherapy resistance and metastasis.Due to their non-invasive,high sensitivity and specificity,exosomes have advantages in being ideal biomarkers for early cancer screening and diagnosis at this stage[220].In addition,some studies have shown that exosomal miRNAs can be used as drug carriers to transport drugs and participate in the immunotherapy of CRC[221].Next,we describe the advantages of exosomes in CRC screening,diagnosis,treatment,and prognosis.

Exosomes as biomarkers for early screening,diagnosis,and prognosis of CRC

It is interesting and useful that exosomes can be detected by taking body fluids,such as blood,urine,saliva and cerebrospinal fluid for analysis,suggesting that exosomes could be an ideal non-invasive or less invasive biomarker for early cancer screening and diagnosis,with high specificity and sensitivity at an early stage[220].Recently,transcriptomics research revealed that ncRNAs in exosomes are involved in different biological processes of CRC,and the high stability of exosome miRNAs in a variety of biological samples makes them an important candidate molecule for the discovery of new cancer biomarkers for CRC[222-224].Wanget al[225]reported a group of six miRNAs including miR-21,let-7g,miR-31,miR-92a,miR-181b,and miR-203 as reliable biomarkers for CRC diagnosis,whose specificity and sensitivity exceed 40% compared to classical biomarkers,CEA and CA19-9[225],while the sensitivity of exosomes miR-1229,miR-223,miR-1224-5p and miR-150 are reach to 50%,whose expressions were significantly different between CRC patients and healthy individuals[226].Increased serum levels of exosome miR-200 were significantly associated with CRC progression and liver metastasis[227].Wanget al[158]confirmed that miR-125A-3p is highly expressed in the plasma of patients with early CRC but not in normal subjects,suggesting that miRNA in exosomes can be used as a biomarker for early CRC screening[158].Moreover,compared with normal people,the expression of exosomal miR-92b is significantly decreased in CRC patients,indicating its higher accuracy in early CRC screening[228].The expression of miR-23a and miR-1246 in exosomes was abundant in CRC patients.Decreased expression of exosome miRNA-23a and miRNA-1246 can be used as diagnostic markers for CRC in patients with primary resection[229].In addition,circulating exosomal miR-17-5p and miR-92a-3p are associated with pathological staging and grading of CRC[230].

Apart from being biomarkers for CRC screening and diagnosis,exosomal miRNAs are also closely related to the prognosis of CRC and can be used as biomarkers for postoperative or therapeutic evaluation.Liuet al[231]found that low expression of plasma exosomal miR-4772-3p was closely associated with less lymph node metastasis,less tumor recurrence,and better prognosis in CRC patients[231].Plasmid-derived exosome miRNA-193a is highly expressed in patients with middle and advanced CRC,suggesting that CRC patients have a longer survival time and a higher survival rate,since exosomal miR-193a could inhibit the mitosis and proliferation of tumor cells and induce cell apoptosis[232].Penget al[233]found that low expression of exosome miR-548-3c suggested poor prognosis,and its low expression in CRC liver metastases was positively correlated with angiogenesis and reduced overall survival rate[233].

Despite a large number of studies that have shown that exosomal miRNAs are potential biomarkers for a variety of cancers,their application in clinical biomarkers still faces many problems.Most current exosome miRNA studies have been limited to small patient cohorts or mice models,which means that miRNA levels in plasma exosomes vary widely in a single cohort and results are inconsistent across groups even when studying the same cancer type.Another common drawback is that the methods used to isolate exosomes from plasma are different from those used to extract miRNAs from exosomes.Studies lack common endogenous miRNA controls for quantifying exosome miRNAs.These problems affect the reliability of circulating exosome miRNAs as cancer biomarkers in clinical diagnosis or prognosis.Therefore,the techniques for isolating exosomes from body fluids and the methods for quantifying miRNAs or proteins also need to be further standardized.

In order to explore the potential of exosomes as novel biomarkers in clinical practice,the most important aspect is to optimize or standardize the measurement of exosomes.Nonetheless,to date,the isolation and purification of exosomes lacks a universally accepted gold standard.At present,the common method for exosome separation is ultra-centrifugation[234],which is controlled by different centrifugal forces and durations according to the density and size differences between exosomes and other components.However,the effectiveness of exosomes is limited due to many reasons such as excessive pressure,long time,high equipment requirements and the specificity of precipitation for separation during the centrifugation process[235].Size exclusion chromatography is another common method for exosome separation[236],but owing to the high dilution degree of samples,this method cannot be used in applications requiring high concentration of exosomes.Additionally,quantitative reverse transcription polymerase chain reaction(qRT-PCR)is commonly used for the quantitative detection of exosome miRNAs[237],but this method is prone to produce false positive signals.Subsequently,researchers developed non-PCR miRNA quantitative spectroscopy based on proportional electrochemistry,local surface Plasma Resonance[238]and Surface-enhanced Raman spectroscopy[239,240].Yet,its application has been hampered by expensive instruments and complex operation.Currently,it is attempted to detect exosome miRNAs using fluorescence method have achieved varying degrees of success,and this method has been attached great importance by researchers due to its inherent advantages of simple instruments,high sensitivity,and high throughput screening[241].The only fly in the ointment is that the complexity of biological systems makes it necessary to develop fluorescent systems with anti-interference for exosome miRNAs as diagnostic biomarkers.It is worth noting that environmental fluctuations caused by such experimental conditions can be offset by ratio fluorescence measurements by calculating the emission intensity ratio of two different wavelengths.In general,the isolation and measurement methods of exosome miRNAs are under constant research and innovation,and the increasingly mature technological conditions make it possible for exosome miRNAs to be used as novel biomarkers for cancer.

In fact,the key obstacle to exosome research to date has not been the separation of impurities from exosome samples,but rather the lack of information on the ratio of actual exosomes to exovesicles in the "exosomes" collected by experimental techniques.Since exosomes overlap with these cellular microvesicles in structure and characteristics[242,243],the reliability of the analysis can be ensured as long as the composition of exosomes in the extracted samples can be accurately determined.From the perspective of exosome drug development,the current drug approval system in most countries only requires a high proportion and quantification of exosomes to meet the requirements for quality control and safety assessment of cell-derived compounds[242].Therefore,how to effectively quantify the individual components of exosomes in collected samples will facilitate the utilization and clinical application of exosomes in the future.

Exosomes as anticancer agents for the treatment of CRC

At present,the treatment of CRC mainly includes surgery,adjuvant chemotherapy,radiotherapy and immunotherapy.Exosomes can be used as drug carriers to transport drugs or directly transport miRNA small molecules to participate in CRC chemotherapy,radiotherapy and immunotherapy[221].Zaharieet al[244]demonstrated that exosome miR-375 promoted tumor cell apoptosis and inhibited CRC proliferation,invasion and metastasis by participating in the Bcl-2 signaling pathway[244].Similarly,exosomal miR-140-3p inhibits CRC proliferation,growth,and liver metastasis by involving the Bcl-2 and Bcl-9 pathways[245].Yanet al[246]found that CRC patients with high expression of exosome miR-548c-5p capable to inhibit the proliferation,invasion and metastasis of CRC cells by enhancing the expression of HIF-1α,had a better prognosis,predicting miR-548c-5p as an indicator for prognostic analysis[246].In addition,Huet al[247]demonstrated that exosome miR-214 inhibits CRC autophagy and promotes its sensitivity to radiotherapy[247].

Recently,due to the rapid development of therapeutic methods,targeted therapy has become an effective strategy for the treatment of CRC.Exosomes are natural nanoparticle biological carriers that have emerged as promising therapeutic tools for the delivery and transfer of drugs,miRNAs,small interfering RNAs(siRNA),short hairpin RNAs,and other compounds that remain stable in exosomes used to treat cancer and other diseases,based on their non-toxicity and non-immunogenicity[248].As delivery carriers of natural drugs and functional RNA,exosomes have their natural advantages[249].

First,exosomes can be produced and absorbed,and are capable of stable delivery of therapeutic drugs,such as therapeutic miRNAs and proteins[250].Currently,doxorubicin and paclitaxel have been used in targeted cancer therapyviaexosomes with minimal immunogenicity and toxicity compared to liposome,metal and polymer nanomaterials[251-254].Second,exosomes enhance endocytosis by targeting specific cells and tissues with specific proteins,thus promoting the transfer of their contents[255].In animal tumor models,exosome-mediated chemotherapy is more effective than free agents.For example,the anti-mitotic chemotherapy drug paclitaxel can be ultrasound-loaded into exosomes and is 50 times more cytotoxic to drug-resistant cancer cellsin vitrothan free paclitaxel[256].Also,it is found that exosomes coated with different chemotherapeutic drugs inhibit tumor growth when delivered to mice tumor tissues,but no equivalent side effects have been observed in free drugs[257].Bioengineered exosomes have been used to deliver anticancer drugs and functional RNAs to cancer cells,including CSCs,in a cell-specific manner.Several strategies have been reported to improve the targeting specificity and tumor absorption of the exosome,for instance,transforming the exosome into lysosomeassociated membrane protein 2b and tumor-targeting integrin to express target ligands[253].Exosomes are surface modified through oligonucleotide binding,which could potentially alter not only cell function,but also transport between cells.Third,exosomes deliver therapeutic goods with better efficacy and fewer off-target effects than other biological carriers,such as liposomes,due to their small size,membrane-permeability,ease of crossing the blood-brain barrier,and faster penetration of tumor cells than liposomes[258].Kimet al[256]found that macrophage-derived exosomes loaded with paclitaxel significantly increased cellular uptake of Lewis lung cancer cell line compared to paclitaxelloaded liposomes[256,259].

Remarkably,exosome targeting of CSCs is a promising approach for the development of cancer therapy,as the growth of CSCs causes drug-sensitive cells to transform into drug-resistant cells,reducing the sensitivity of anti-cancer drug therapy.CSC signaling pathways such as Wnt,Notch,Hippo,Hedgehog,NF-κB and TGF-β are significant for maintaining a series of biological functions such as self-renewal,differentiation and tumorigenesis,which,therefore,is also the main way for exosome loaded inhibitors(miRNA or siRNA)to selectively target CSCs[213].Previous studies have indicated that fibroblast-derived exosome with Wnt could induce dedifferentiation of tumor cells and thus increase chemotherapy resistance to CRC,suggesting that interference with the exosomal Wnt signaling pathway is helpful to improve chemotherapy sensitivity and treatment window[211].Furthermore,specific producers of CSCs,such as CD44,CD24,CD133,and CD200 can also be used as exosome targets using bioengineering techniques[260].Liuet al[261]manifested that exosomes designed to carry miR-21 inhibitors and chemotherapeutic agents enhance the killing effect on CRC tumor cells and inhibit CRC resistance[261].RDEs carrying miR-3a improve immunosuppression and inhibit CRC proliferation and metastasis[262].

In addition to being a transport vehicle for targeted drugs,another promising clinical application area for exosomes is anti-cancer vaccination.Taking the DC exosome vaccine as an example,DC-derived exosomes express MHC-I and MHC-II molecules,which can effectively activate cytotoxic T cells and induce anti-tumor immunity.Currently,DC-derived exosome vaccines have been tested in phase I clinical trials[263,264].The results showed that no grade 2 or higher toxicity was observed in these clinical trials,proving that exosome administration is safe.In one of the Phase I trials,exosomes were isolated from the ascites of colon cancer patients and injected into the patients as a vaccine.Ascitesderived exosomes were found to be safe,well tolerated,and capable of producing tumor-specific antitumor cytotoxic T cell responses after the granulocyte-macrophage colony-stimulating factor use in the immunotherapy of CRC[265].However,the safety of TDE vaccines remains uncertain because TDEs carry a large number of oncogenes,mRNAs,and miRNAs that induce tumor progression and metastasis.

Though a large number of experimental models support the use of exosomes in cancer therapy,only a few clinical trials are in progress,thus the clinical use of exosomes in cancer and other diseases still needs to solve many challenges.First,how to effectively load exogenous therapeutic miRNAs or therapeutic agents into exosomes and enhance cell-specific delivery.Second,how to prevent autoimmune reactions when using non-autologous exosomes carrying MHC-I or II,and how to control the degree of cytotoxic T cell activation in vaccine use.Furthermore,how to prolong the half-life of bioengineered exosomesin vivoto avoid the rapid clearance of immune cells,liver or kidney,etc.Finally,it remains to be seen whether exosomes can overcome the digestive effects of the gut and be used as oral agents to treat cancer.Therefore,before the widespread use of exosomes in clinical trials,the quality standards of exosomes should be carefully established to improve their efficacyin vivo.

CONCLUSION

To sum up,exosomes have been successfully used as drug carriers in clinical therapy,and their safety and clinical application in targeted therapy and so on still need further exploration and research.In this review,the mechanism of exosomes in CRC metastasis was comprehensively described,including the formation and influencing factors of TME,the formation,function and role of exosomes in cancer,as well as the role of exosome miRNAs in the process of CRC metastasis.In TME,exosomes secreted by tumor-derived immune cells such as TAMs,DCs,MDSCs and NKs are critical for tumor growth and metastasis.In addition,stromal cells such as CAFs and MSCs as well as the ECM also play a significant role in tumor metastasis.Exosomes,as EVs carrying biological cargos,exert their function in primary tumors and metastases mainly of intercellular communication.In exosomes,DNA,mRNA,ncRNA and protein have different biological meanings and participate in the regulation of the body together.The role of exosome miRNA in early screening,diagnosis and prognosis of CRC,as well as in the treatment strategies for CRC along with chemotherapy,radiotherapy,immunotherapy and targeted therapy,provides a promising way for preventing and treating the metastasis in patients with CRC.

FOOTNOTES

Author contributions:Wu Z contributed to this work;Fang ZX,Hou YY,Wu BX and Deng Y participated in the writing of the manuscript;Wu HT and Liu J reviewed the manuscript and contacted the journals;All authors have read and approve the final manuscript.

Supported byNational Natural Science Foundation of China,No.82273457;Natural Science Foundation of Guangdong Province,No.2021A1515012180 and 2016A030312008;Special Grant for Key Area Programs of Guangdong Department of Education,No.2021ZDZX2040;and Science and Technology Special Project of Guangdong Province,No.210715216902829.

Conflict-of-interest statement:All the authors report no relevant conflicts of interest for this article.

Open-Access:This article is an open-access article that was selected by an in-house editor and fully peer-reviewed by external reviewers.It is distributed in accordance with the Creative Commons Attribution NonCommercial(CC BYNC 4.0)license,which permits others to distribute,remix,adapt,build upon this work non-commercially,and license their derivative works on different terms,provided the original work is properly cited and the use is noncommercial.See:https://creativecommons.org/Licenses/by-nc/4.0/

Country/Territory of origin:China

ORCID number:Zheng Wu 0000-0002-1393-7586;Ze-Xuan Fang 0000-0002-6100-9012;Yan-Yu Hou 0000-0002-4249-8770;Bing-Xuan Wu 0000-0002-1212-7936;Yu Deng 0000-0002-0950-6169;Hua-Tao Wu 0000-0002-1640-6094;Jing Liu 0000-0002-7483-4572.

S-Editor:Fan JR

L-Editor:A

P-Editor:Zhang XD