Prospects for immunotherapy as a novel therapeutic strategy against hepatocellular carcinoma

Yu Akazawa,Toshihiro Suzuki,Toshiaki Yoshikawa,Shoichi Mizuno,Yasunari Nakamoto,Tetsuya Nakatsura

Yu Akazawa,Toshihiro Suzuki,Toshiaki Yoshioka,Shoichi Mizuno,Tetsuya Nakatsura,Division of Cancer Immunotherapy,Exploratory Oncology Research and Clinical Trial Center,National Cancer Center,Kashiwa 277-8577,Japan

Yu Akazawa,Yasunari Nakamoto,Second Department of Internal Medicine,Faculty of Medical Sciences,University of Fukui,Fukui 910-1193,Japan

Abstract

Key words:Hepatocellular carcinoma;Cancer immunotherapy;Immune checkpoint inhibitor;Glypican-3;Cancer vaccine;Clinical trials;Cytotoxic T-lymphocytes

INTRODUCTION

Hepatocellular carcinoma (HCC) is one of the most common causes of cancer-related death[1].Approximately 750000 people are affected and about 700000 result in death in worldwide every year;the incidence is particularly high in Asia and Africa[2,3].Infections with hepatitis B virus (HBV) and hepatitis C virus (HCV),which induce the formation of chronic inflammatory microenvironments in the liver,are considered major risk factors for HCC[4].Other factors,including alcohol intake,obesity,diabetes,and exposure to aflatoxin,have also been implicated in the cause and progression of HCC[5].Early detection can ensure better clinical results for patients with HCC,as evidenced by the high 5-year survival rate (more than 70%) for early-stage HCC patients[6].In contrast,most late-stage HCC patients show poor prognosis,with a 5-year survival rate of less than 16%[6,7].One of the causes of making early diagnosis of HCC difficult is the existence of background liver of patients including chronic liver inflammation and cirrhosis,which makes it difficult to obtain clear images from ultrasonography,computerized tomography (CT),and magnetic resonance imaging(MRI).Furthermore,highly accurate biomarkers for early-stage HCC detection have not yet been established[8].Also,patients with HCC have higher recurrence rates than those with other solid cancers;as HCC is initiated from injured hepatocytes,even after tumor removal,the patient has a high risk of recurrence as long as the background liver disease persists.Therefore,these above factors make HCC one of the most aggressive diseases,with poor survival prognosis.

Currently,there are various options for HCC therapy,depending on the clinical stage.Surgical hepatic resection and radiofrequency ablation therapy (RFA) is considered as ideal for early-stage HCC patients,who have adequate liver function and no evidence of portal hypertension or vascular invasion[9-13].For early-stage HCC patients with relatively poor liver function,liver transplantation is an effective therapeutic procedure[14].Also,many reports have demonstrated the effectiveness of RFA and transarterial embolization (TAE) for HCC patients.However,these conventional strategies are limited by considerations of tumor size,number of intrahepatic metastases,and adequate hepatic reserve capacity;they are therefore unsuitable for many patients[15,16].Meanwhile,for patients with advanced HCC,transcatheter arterial chemoembolization and molecular targeted drugs have been conducted.Systemic chemotherapy,which is other treatment method,and has been reported to show a high frequency of adverse events and strong tolerance,with poor clinical effectivity[17].Molecular targeted therapy,one of the more modern strategies,is based on specific molecular attributes of cancer types.Sorafenib,an inhibitor of tyrosine kinase,is the first molecular targeted drug against HCC that is approved by the Food and Drug Administration (FDA).Indeed,in a phase-III clinical trial for advanced HCC,patients who received sorafenib had better overall survival (OS) than placebo-treated patients (10.7 movs7.9 mo)[18-21].However,because of its low response rate for HCC patients and the relatively high incidence of adverse events,sorafenib may not be the most suitable strategy for HCC therapy[18-20,22,23].Today,the development of other molecular targeted drugs is under way[24,25].Indeed,as novel molecular targeted drug against HCC,Regorafenib and Lenvatinib were approved by the FDA in April 2017 and August 2018,respectively.In any case,the development of a new therapeutic strategy of HCC with adequate antitumor effect and few adverse events would be urgent[26,27].

In recent years,immunotherapy has attracted a lot of attention from both basic scientists and clinicians as a promising new method of cancer therapy.It has been demonstrated that several immunotherapies have high antitumor effects against various cancer types,including malignant melanomas and hematological malignancies[28,29].Also,immunotherapy could theoretically be ideal for HCC therapy,as:(1) it exerts antitumor effects through mechanisms different from those of existing therapies;and (2) it produces recurrence prevention effects along with curative effects[30-32].Indeed,immunotherapy against HCC has been studied for decades[33,34],and many clinical trials have been performed on HCC patients[35,36].Several randomized controlled trials have established the use of immunotherapy as an adjuvant therapy to reduce the risk of cancer recurrence[37-39].Therefore,it is almost certain that immunotherapy will be one of the major options for HCC therapy in the near future.Here,we introduce novel immunotherapeutic strategies for HCC therapy,including immune checkpoint inhibitor therapy;we also elaborate on immunotherapy using GPC3,which is a cancer-specific antigen we identified (Figure1).We believe this review could awaken more interest in immunotherapy for HCC,which would help improve the survival prognosis of HCC patients.

IMMUNE RESPONSE AND IMMUNE ESCAPE IN HCC

The liver has a role as a lymphatic system of the whole body,and HCC occurring in these tissues often has properties different from other cancers.Commonly,most HCC patients have a background of chronic hepatitis or liver cirrhosis.Liver cirrhosis is often a highly genotoxic environment with persistent inflammation and fibrosis,which could promote the onset of HCC.Generally,HCC is a malignant disease induced by inflammation;the carcinogenesis of HCC usually involves DNA oxidative injury accumulated under a sustained inflammatory environment caused by HBV,HCV,or other factors.

During the development and progression of HCC,patients show a unique anti- or pro-tumor response[29].Previously,it had been reported that patients with HCC showed spontaneous T-cell response to many tumor antigens,including alpha fetoprotein (AFP),glypican-3 (GPC3),NY-ESO-1,SSX-2,MAGE-A-10,and p53[40-46].However,the anti-tumor effects of these immune responses are not sufficient to cause tumor regression or inhibit disease progression.Several mechanisms have been proposed to explain this phenomenon.First,there would be a change in the expression levels of major histocompatibility complex (MHC) class I,which plays a role in antigen presentation to cytotoxic T-lymphocytes (CTLs).Indeed,the downregulation of MHC class I has been reported in many advanced cancers,including HCC[47-49].However,changes in the expression levels of HLA class I have not been consistent in previous studies,and remain unclear.In addition,a decrease in the expression of co-stimulatory molecules B7-1 and B7-2 has been reported in HCC[50].Second,there would be excessive activation of immunosuppressive cells,including regulatory T-cells (Tregs) and bone marrow-derived suppressor cells(MDSCs)[51].Tregs are the most well-known players in cancer evasion from immunosurveillance.In fact,Tregs have been shown to suppress anti-tumor immunity[52,53].Patients with HCC have increased number of Treg in peripheral blood mononuclear cells (PBMCs) and tumor-infiltrating lymphocytes (TILs),which is correlated with disease progression and poor prognosis[54-56].MDSCs are the heterogeneous cell population of early bone marrow progenitor cells;they suppress the cytotoxic activity of NK cells and adaptive immune responses mediated by CD4+and CD8+ T-cells.Specifically,MDSCs have been reported to induce the production of Foxp3 and interleukin-10 in CD4+T-cells through arginase activity;they also suppress T-cell function through the induction of Tregs.In addition,the frequency of MDSCs in the peripheral blood is positively correlated with the risk of recurrence of HCC in patients who received RFA therapy[57].Third,there is the presence of immune checkpoint factors.It has been shown that,due to escape from immune monitoring,especially from specific T-cell responses for tumor antigens,several immune checkpoint pathways could be actively exploited by tumors.Indeed,some immune checkpoint molecules such as cytotoxic T-lymphocyte-associated antigen 4 (CTLA-4)and programmed cell death-1 (PD-1) have been detected in the tumor microenvironment and are often overexpressed[58-61].Recent years have seen a rapid advance in research on these immune checkpoint molecules.In some cancers,particularly malignant melanomas,inhibitors of immune checkpoint molecules have been shown to cause a major antitumor effect.Today,inhibitors targeting immune checkpoint molecules are being extensively studied worldwide.Finally,persistent infection of the liver could lead to immune escape mechanisms.It is well known thatNK cells,which kill cancer cells by recognizing them as “non-self,” can inhibit the progression of cancer.A recent report showed increased blood levels of MHC class I-related chain A,which is involved in the recognition of cancer cells by NK cells,during the progression of chronic liver disease;this attenuates the NKG2D-mediated cytotoxic activity of NK cells,which could contribute to the development of liver cancer[62,63].In addition,the presence of the unique liver cells such as sinusoidal endothelial cells and Kupffer cells (macrophages that act as antigen-presenting cells)is known to induce immune tolerance.Thus,hindering these immune escape mechanisms and promoting immune response with stronger antitumor effects could improve the clinical efficiency of cancer therapies.

Figure1 A scheme of mechanisms of peptide vaccine therapy and immune checkpoint inhibition therapy.In peptide vaccine therapy,a injected tumorassociated peptides induce peptide-specific cytotoxic T-lymphocyte viaantigen presenting cells,with resulting in an antitumor effect on cancer cells.Immune checkpoint inhibition therapy could result in anti-tumor effects by inhibiting the mechanism that negatively suppresses the immune response to tumor cells;anti-CTLA-4 antibody and anti-PD-1 antibody play a role of blocking the PD-1/PDL1 and CTLA4/B7 pathways,respectively.MHC:Major histocompatibility complex;CTLA-4:Cytotoxic T-lymphocyte-associated antigen 4;PD-1:Programmed cell death-1;CTL:Cytotoxic T-lymphocyte.

Recent studies have focused on immune responses in patients who received existing conventional therapies for HCC.Briefly,anti-cancer immune response induced by tumor-specific T-cells have been confirmed in HCC patients treated with RFA and TAE[64-67].In addition,the frequency of natural killer T-cells (NKT cells),which have anti-tumor effect,has been reported to increase in the peripheral blood after RFA treatment[68].These results suggest that traditional therapies for HCC are,at least in some cases,involved in immune responses;this opens up the possibility of combining with novel immunotherapy.

CANCER IMMUNOTHERAPY TARGETING GPC3

GPC3

In 2001,we identified GPC3,a cancer-specific antigen expressed in some cancer cells,from tens of thousands of genes collected using cDNA microarray against several cancer tissues,several surrounding non-cancer tissues,and various normal tissues[69].GPC3,a 65-kDa protein comprising 580 amino acids,is a heparan sulfate proteoglycan bound to the cell membrane by a glycosylphosphatidylinositol (GPI) anchor.It is hardly expressed in any normal tissue,except in the embryonic liver,embryonic kidney,placenta,and parts of the kidney tubules.However,it is expressed in tissues of HCC,ovarian clear cell carcinoma,malignant melanoma,lung squamous cell carcinoma,hepatoblastoma,Wilms tumor,and AFP-producing gastric cancer,but not in other cancer tissues.There are two types of GPC3,a membrane-bound type and a secreted type,but it is not clear how these types influence the development and progression of cancer.In HCC,they are known to be involved in neoplastic transformation[70].The expression of GPC3 in HCC has also been reported to be associated with clinical prognosis[71].We had evaluated the relationship betweenGPC3 expression in HCC and long-term prognosis in 33 HCC patients who underwent radical surgery (in preparation).The 5-year survival rates were 42.9% and 83.3% in GPC3-positive (21 cases) and -negative (12 cases) patients,respectively.Thus,GPC3-negative patients had significantly better OS than GPC3-positive patients (logrank test,P= 0.02).This result was also consistent with that of a previous report[71].With such high cancer-specificity,GPC3 could be an ideal target for immunotherapy against cancer.Nakanoet al[72]also independently identified GPC3 as a cancer-specific antigen almost at the same time as our group.They also developed an antibody therapy targeting GPC3,and are being progressed research using its antibody[72].In addition,phase I/II clinical trials of GC33,a novel GPC-3 antibody,are ongoing under world scale in patients with advanced HCC (Table1)[73,74].We also showed that GPC3-derived peptides could restrict HLA-A24 and HLA-A2,thus inducing peptidespecific CTLs[43,75].HLA-A24 is present in approximately 60% of the Japanese population,while HLA-A2 is present in 40% of the Japanese population and is also a major haplotype in the Caucasian population[43,75].Further,we performed clinical trials for a peptide vaccine therapy using HLA-A24- and HLA-A2-restricted GPC3-derived peptides (Table1)[76].Here,we present the results of these trials and our attempts to develop novel immunotherapies using GPC-3.

Clinical trials using GPC3 peptide vaccine against HCC

In a subsequent phase I trial,we investigated the extent of CTL infiltration into the PBMCs and tumors in 11 patients with advanced HCC who had undergone GPC3 vaccination and were resistant to sorafenib treatment (UMIN Clinical Trials Registry:000005093)[78].We found that the number of GPC3-peptide specific CTLs in the PBMCs increased after GPC3 vaccination in 9 of 11 cases.In addition,tumor biopsy specimens after vaccination were obtained from 3 patients,and we observed infiltration of CTLs into tumors in all of them.These results confirmed that GPC3 vaccination could induce the infiltration of GPC3 peptide-specific CTLs into tumor.Remarkably,we observed a valuable case in which multiple HCC tissues became inflamed and then necrotic,after 2 times injections of the vaccine.This was a promising result implying that the peptide vaccine therapy could potentially obtain not only immunological response,but also sufficient clinical antitumor effect[79].We also established several GPC3 peptide-specific CTL clones from tumor biopsy specimens collected after the vaccination[78].

Phase II clinical trial of GPC3 peptide vaccine as a recurrence preventive effect in HCC patients after radical treatment:To evaluate the efficiency of our peptide vaccine in preventing recurrence,we performed a single-arm phase II clinical trial for the GPC3 peptide vaccine as an adjuvant therapy;the trial was performed in 35 patients with HCC after radical treatment (UMIN Clinical Trials Registry:000002614)[80].We found that the 1 - and 2-year recurrence rates (the primary endpoints in the trial) in the enrolled patients were 24.4% and 53.7%,respectively.This result showed that the GPC3 peptide vaccine could be useful as adjunctive therapy for HCC after radical therapy.Also,we evaluated the long-term survival prognosis in the enrolled patients.The median PFS and OS were 20.4 and 72.8 mo,respectively,while the 5-year survival rate was 70.6% (in preparation).In addition,the two cases showed recurrence,despite increased peptide-specific CTLs in the peripheral blood after the vaccination.In these HCCs,GPC3 was mostly expressed in the primary tumor before the vaccination;however,its expression was almost absent in the recurrent tumor after vaccination[80].These results indicate that peptide vaccine therapy targeting tumor-associated antigens could eradicate cancer cells expressing the antigen,but might be ineffectiveagainst cancer cells that do not express the antigen or those that have lost antigen expression.Therefore,vaccine therapies targeting multiple cancer-related antigens will be key for future research in this field;combination of immunotherapies with other therapies should also be explored.

Table1 Review of clinical trials of immune checkpoint inhibitor therapy and glypican-3-based immunotherapy in patients with hepatocellular carcinoma

GPC3:Glypican-3;CAR-T:Chimeric antigen receptor modified T cells;PD-1:Programmed cell death-1;CTLA-4:Cytotoxic T-lymphocyte-associated protein-4;RFA:Ragiofrequency ablation;TAE:Transcatheter arterial emboliazation;HCC:Hepatocellular carcinoma;ORR:Objective response rate;DCR:Disease control rate;DOR:Duration of response;PFS:Progression free survival;TTP:Time to progression;OS:Overall survival;PBMC:Peripheral blood mononuclear cell;CR:Complete response;PR:Partial response;SD:Stable disease;CTL:Cytotoxic T lymphocyte.

Novel approach for enhancing the antitumor effect of peptide vaccine therapy

As mentioned above,although we could show the safety and immunological response of the peptide vaccine,its anti-tumor effect remains limited.Even if an excellent peptide vaccine could sufficiently induce peptide-specific CTLs,the anti-tumor effect would depend critically on the number of peptides presented to HLA class I molecules on the surface of cancer cells.To improve this defect,we developed an intra-tumor peptide injection therapy,where the peptide vaccine is directly administered into tumor tissues[81].Direct injection into the tumor allows a sufficient number of peptides to be presented to HLA class I molecules on the tumor cells,thus enhancing the killing capacity of peptide-specific CTLs.In addition,the peptide vaccine itself could induce the infiltration of peptide-specific CTLs into the tumor.Indeed,we showed that intra-tumor peptide injection therapy effectively suppressed tumor growth in a tumor-transplanted mouse model.We also showed that the combination of subcutaneous and intra-tumor injection of the peptide vaccine resulted in higher anti-tumor effect than either of the therapy.

We also found that combining the peptide vaccine with anti-PD-1 antibody[82]or anti-CD4 antibody[83]could enhance the induction of peptide-specific CTLs and result in higher antitumor effects than peptide vaccine therapy alone.The use of anti-CD4 antibodies could remove Tregs and weakly CD4-positive macrophages that suppress the positive immune response against cancers.We expect that these approaches would bring about a breakthrough for peptide vaccine therapy in the future.

Development of T-cell receptor-engineered T-cell therapy and chimeric antigen receptor-transduced T-cell therapy targeting GPC3

We had established multiple GPC3 peptide-specific CTL clones from the peripheral blood and cancer tissues of HCC patients vaccinated in the clinical trials[77,78,84].Several of these CTL clones had high capability for killing cancer cells that express GPC3 peptides.In collaboration with Mizukoshiet al[64],we generated induced pluripotent stem cell-derived T-cells transduced with GPC3-specific T-cell receptors (TCRs),which were derived from the most suitable of our CTL clones.TCR-engineered T-cell therapy has been said to be superior to peptide vaccine therapy in terms of safety and anti-tumor effect.Thus,TCR-engineered T-cell therapy based on GPC3 might be a promising novel therapy for patients with advanced HCC in the future.

It was recently shown that chimeric antigen receptor (CAR)-transduced T-cell therapy was remarkably effective against blood malignant disease,with a clinical response rate of more than 80%.However,its efficacy against solid cancers has not been established.Phase I clinical trials of anti-GPC3 CAR-modified T-cells based on GC33 are currently underway in China for patients with refractory or relapsed GPC3+HCC[85].In collaboration with Ishidaet al[86],we are also developing a next-generation CAR-transduced T-cell therapy based on a novel GPC3 antibody.To overcome the disadvantages of the conventional methods of this therapy,we combined FITC-conjugated cancer-specific antibodies with CAR-transduced T-cells that react with FITC.This approach allows us to precisely control the cancer-killing ability of CAR-transduced T-cells by adjusting the dose of FITC-conjugated antibodies;this also helps in the survival of CAR-transduced T-cells.

These studies continue to help us strive toward the goal of establishing a practical clinical application for TCR-engineered T-cells and CAR-transduced T-cells for treating solid cancers.

本文以南京工業(yè)大學圖書館實踐為例，通過專家訪談、網(wǎng)絡(luò)交流等途徑深入調(diào)研學科用戶的資源與服務(wù)需求，匯總分析“雙一流”背景下不同學科對文獻資源的評估與建議，結(jié)合當前資源采購模式與現(xiàn)狀，重點探討“高峰”“高原”學科資源體系的構(gòu)建與完善，以及資源建設(shè)的實施策略。

Development of serum full-length GPC3 as biomarkers for peptide-based immunotherapy

Previous studies have shown that secreted GPC3 is released into the serum in the patients with HCC.Recently,we developed an assay to quantify serum full-length GPC3 in cooperation with a private company.This assay could measure serum GPC3,which could be useful as a biomarker for early diagnosis,prediction of recurrence,and evaluation of the effect of anti-GPC3 therapy against HCC.In fact,we showed that the vaccinated group (n= 9) had better PFS and OS than the non-vaccinated group (n= 12) in GPC3-positive HCC patients who had high GPC concentration in the peripheral blood after radical surgery (log-rank test,P= 0.075,P＜ 0.01,respectively)(in preparation).This result suggested that serum GPC3 concentration after radical surgery could be a useful biomarker for predicting the clinical effect of GPC3 vaccination.

IMMUNE CHECKPOINT INHIBITORS

The use of immune checkpoint inhibitors such as anti-PD-1 and anti-CTLA-4antibodies has attracted attention as a novel cancer therapy that can provide dramatic and long-term anti-tumor effect through an approach that is different to that of conventional therapies.In 1992,Ishidaet al[86]found that the expression of PD-1 was elevated when T-cells underwent apoptosis;after then,they clarified that PD-1 is a receptor that negatively regulates the immune response against cancer cells.In addition,blocking the PD-1/PD-L1 pathway has been shown to cause an anti-tumor effect by excluding the tumor-induced immune suppressive system and promoting the immune response against tumors.

In 1995,Krummelet al[87]found that CTLA-4 was essential for self-tolerance in immunity;its deficiency caused serious autoimmune diseases.In addition,blocking the interaction between CTLA-4 and B7-1/B7-2 induced tumor rejection in mice[88].These immune checkpoint inhibitor therapies could be another promising option for cancer therapy that ensures safe and efficient therapeutic effects against cancers that are resistant to conventional chemotherapy and radiation therapy.In fact,nivolumab,an anti-PD-1 antibody,and ipilimumab,an anti-CTLA-4 antibody,were the first antibodies to be approved for use against advanced malignant melanomas resistant to conventional chemotherapy and radiation therapy.Since then,based on clinical trials on patients with various types of cancer,these therapies have gradually expanded their application for several cancers[89-91].However,the response rate for these therapies are still low;for malignant melanomas,excluding Hodgkin's lymphoma,it was near 30%,while for other cancers,it ranges from 10% to 30%.Thus,despite many favorable signs,these therapies still benefit only a limited number of patients.Therefore,there is an urgent need to establish appropriate biomarkers for predicting the clinical response of patients against immune checkpoint inhibitors.Number of mutations in the patient has been considered as biomarkers to predict the clinical efficacy of these immunotherapies.Also,it has been reported that PD-L1 expression levels could be involved in the clinical effect of immunotherapy in patients with nonsmall cell lung cancer,but these relevance has not been reported in those with HCC.In May 2017,pembrolizumab was approved by the FDA for patients with malignant diseases who showed high microsatellite instability or incomplete mismatch repair;this was the first approval in which genetic abnormalities,and not the type of cancer,was the adaptation condition[92,93].Future studies should therefore focus on identifying biomarkers with better accuracy for predicting treatment effects,and on establishing treatment-selective algorithms to use them.

In recent years,against HCC patients,clinical trials for immune checkpoint inhibitor therapy alone and in combination with other conventional therapies have been proposed (Table1).Originally,there are many immune cells in the liver.In addition,chronic inflammation such as liver cirrhosis and viral hepatitis,which could be the host of HCC,could induce immunosuppression against HCC.These two mechanisms would imply that immune checkpoint inhibitors could have a sufficient therapeutic effect in patients with HCC.In the following sections,we introduce clinical trials for immune checkpoint inhibitor therapy in HCC patients.The development of immune checkpoint inhibitor therapies could trigger a major revolution in conventional hepatocarcinotherapy,and future developments in these therapies look promising.

Anti-PD1 antibody

Nivolumab is the first humanized monoclonal IgG4 antibody against human PD-1.It has been approved for use against many types of cancer,including malignant melanoma,non-small cell lung cancer,renal cell cancer,and gastric cancer.A phase I/II clinical trial for the use of nivolumab against HCC was performed between November 2012 and August 2016 in patients with advanced HCC (Checkmate-040)[94].The results of this trial confirmed the tolerability of nivolumab in HCC patients.In addition,the results showed an objective response rate (ORR) of 20% (n= 42/214) and a DCR of 64% (n =138/214).The median duration of response and progression-free survival were 9.9 and 4.0 mo respectively,and OS rate at 9 mo was 74%.A subsequent result published in ASCO 2017 revealed that the median OS was 15.6 mo in 145 cases that were co-treated with sorafenib and 28.6 mo in 80 cases not given sorafenib[95].In addition,nivolumab therapy had a sustained long-term clinical effect in patients who had partial response (PR) and stable disease (SD)[94].Based on this promising result,the FDA approved nivolumab for patients with HCC who had previously been treated with sorafenib in September 2017.Currently,phase III clinical trials for the safety and clinical efficacy of the combination of nivolumab and sorafenib as a firstline standard therapy for patients with advanced HCC are being performed,and the results are awaited (Checkmate-459).

Pembrolizumab is another anti-PD1 antibody.Recently,phase II clinical trials for pembrolizumab were performed on 104 patients with advanced HCC who had received sorafenib treatment (KEYNOTE-224)[96].The results showed 16.3% ORR and61.5% DCR.The median duration of response and RFS were 2.1 and 4.8 mo,respectively,indicating that pembrolizumab was almost as effective as nivolumab.Currently,phase III clinical trials are underway for evaluating the efficacy of pembrolizumab as a secondary treatment after sorafenib (KEY NOTE-240).

Anti-CTLA-4 antibody

CTLA-4 is a receptor on the cell membrane of T-cells that suppresses antigen presentation by dendritic cells.Treatment with anti-CTLA-4 antibodies could enhance the antitumor effect of cancer-specific T-cells by inhibiting CTLA-4 activity.Currently,ipilimumab,an anti-CTLA-4 antibody,has approval for use in patients with malignant melanoma.Recently,a phase II clinical trial was conducted to evaluate the clinical efficacy of tremelimumab,another anti-CTLA-4 antibody,in patients with HCC[97].After 8 wk of treatment,3 and 10 patients (among a cohort of 21 HCC patients) showed PR and SD,respectively.Median PFS and OS were 6.5 and 8.2 mo,respectively.

Combination therapy using immune checkpoint inhibitors

To achieve a sufficiently strong antitumor immune response,a combination therapy using anti-PD-1 and anti-CTLA-4 antibodies is being developed for HCC treatment.This combination therapy has already been shown to have strong antitumor effects in patients with malignant melanoma[98].The anti-CTLA-4 antibody increases the number of CTLs that infiltrate into tumor by blocking the CTLA-4/B7 pathway.The anti-PD-1 antibody enhances the anti-tumor immune response of cancer-specific CTLs by blocking the PD-1/PD-L1 pathway.The combination of these two mechanisms of immune responses allows this combination therapy to produce an enhanced antitumor effect.

Also,a phase I/II clinical trial for evaluating the efficacy and safety of a combination therapy using tremelimumab (anti-CTLA-4 antibody) and durvalumab(anti-PD-L1 antibody) is underway in 40 patients with advanced HCC.Interim results of this clinical trial announced at ASCO 2017 revealed that the ORR was 25%[99].In addition,a phase III clinical trial of these combination therapies as first line therapy in the advanced HCC patients is currently ongoing (NCT 03298451).

In recent years,combination therapies of molecular targeted drugs with immune checkpoint inhibitors have attracted attention.This promising approach could achieve additive therapeutic effects of the two drugs and a synergistic effect by improving the tumor-induced immunosuppressive microenvironment[100].In fact,clinical trials investigating the efficacy of such combination therapies against HCC have already started in Japan and the United States of America (NCT 03006926).

Several therapies combining local regional methods such as RFA and TAE with immunity checkpoint inhibition therapy have also been reported.Clinical trials for an anti-CTLA-4 antibody as an adjuvant therapy after RFA and TAE showed promising anti-tumor effects,with a PR rate of 26%,a median PFS of 7.4 mo,and a median OS of 12.3 mo[101].Thus,immune checkpoint inhibitor therapy shows great promise as preventive measure for HCC recurrence.This therapy also has the potential for application to a wide range of treatment strategies,from first-line standard therapy to adjuvant/neoadjuvant therapy.

FUTURE PROSPECTS OF IMMUNOTHERAPY IN HCC

Immunotherapy is now widely considered a landmark therapeutic strategy that could radically alter conventional cancer therapy.Unfortunately,patients who can benefit from it remain limited,even in the highly promising immune checkpoint inhibitor therapy.Therefore,further understanding of therapeutic effect prediction and resistance mechanism for immunotherapy could be necessary.Immunotherapy,including immune checkpoint inhibition,cannot provide any anti-tumor effect unless T-cells interact with the cancer-associated peptide and the MHC molecules,thus recognizing cancer cells.Therefore,there have been many efforts to identify and develop more promising tumor-associated peptides and their epitopes.Peptide vaccine therapy using cancer-specific antigens such as GPC3 could induce peptidespecific CTLs against several cancers.Thus,peptide vaccine therapy could be a revolutionary therapeutic strategy by combining with other therapies.

Today,advances in next-generation sequencing and bioinformatics have made it possible to catalog all genomic mutations in individual patients.It has been reported that patients who accumulate more genetic mutations show stronger immune response and better anti-tumor effects after adoptive immunotherapy using TILs[102-106]and immune checkpoint inhibitor therapy[92,107,108]than those with fewer mutations.We are currently developing individualized vaccine therapy targeting neo-antigens,which are gene mutation antigens,in several solid tumors,including HCC.Clinical trials are already underway for individualized vaccine therapy in Europe,North America,and China in several cancers,and the preliminary results are beginning to be reported[109-113].

The liver,which contains many immune cells,is unique in that it has a developed immune escape mechanism.The novel immunotherapies could exploit this unique characteristic of the liver and will be ideal candidates for treating HCC in the future.In fact,the widespread acceptance and application of immune checkpoint inhibitor therapy could result in a major paradigm shift in HCC therapy.Cancer immunotherapy and its combination with conventional methods are being rapidly developed worldwide.Meanwhile,immunotherapy has the possibility of causing immune-related adverse events different from conventional therapy,and more severe management may be required.Therefore,for optimization of immunotherapy,we believe that it is urgent to product more strict novel algorithms for treatment selection and management of HCC.We believe that further development of novel cancer immunotherapy can have innovative benefits against many patients with HCC who have been suffering.