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    The gene expression patterns of BMPR2, EP300, TGFβ2, and TNFAIP3 in B-Lymphoma cells

    2014-03-29 05:58:16DongMeiHeHongWuXiuLiWuLiDingLingXuYangQiuLi
    Cancer Biology & Medicine 2014年3期

    Dong-Mei He, Hong Wu, Xiu-Li Wu, Li Ding, Ling Xu, Yang-Qiu Li,2

    1Institute of Hematology, Medical College,

    2Key Laboratory for Regenerative Medicine of Ministry of Education, Jinan University, Guangzhou 510632, China

    The gene expression patterns of BMPR2, EP300, TGFβ2, and TNFAIP3 in B-Lymphoma cells

    Dong-Mei He1, Hong Wu1, Xiu-Li Wu1, Li Ding1, Ling Xu1, Yang-Qiu Li1,2

    1Institute of Hematology, Medical College,

    2Key Laboratory for Regenerative Medicine of Ministry of Education, Jinan University, Guangzhou 510632, China

    Objective:e results of a previous study showed that a clear dysregulation was evident in the global gene expression of the BCL11A-suppressed B-lymphoma cells. In this study, the bone morphogenetic protein receptor, type II (BMPR2), E1A binding protein p300 (EP300), transforming growth factor-β2 (TGFβ2), and tumor necrosis factor, and alpha-induced protein 3 (TNFAIP3) gene expression paerns in B-cell malignancies were studied.

    Bone morphogenetic protein receptor, type II (BMPR2); E1A binding protein p300 (EP300); transforming growth factor-β2 (TGFβ2); tumor necrosis factor, and alpha-induced protein 3 (TNFAIP3); B-lymphoma cells; myeloid leukemia cells; quantitative reverse transcription polymerase chain reaction (qRT-PCR)

    Introduction

    Non-Hodgkin lymphomas (NHLs) are the fih most frequently occurring cancer worldwide1-3. Diffuse large B-cell lymphoma(DLBCL) is considered a highly heterogeneous type of NHL in its morphology, immunophenotypical, biological, and clinical aspects. Gene expression pro fi le analysis has identi fi ed a germinal-center (GC) B-cell-like, an activated B-cell-like (ABC), and an intermediate type of DLBCL with different prognostic implications4,5. Burkitt’s lymphoma (BL) is an aggressive B-cell NHL, characterized by a high degree of proliferation of the malignant cells. The main diagnostic challenge in BL is to distinguish it from DLBCL6,7.

    B-cell chronic lymphocytic leukemia (CLL)/lymphoma 11(BCL-11A) gene is associated with human malignant B cells, overexpression of which primarily occurs in B-cell lymphoma and B-cell leukemia8-11. A previous study has shown that a broad range of genes may be altered in B-cell lymphoma, including bone morphogenetic protein receptor, type II (BMPR2), E1A binding protein p300 (EP300), transforming growth factor-β (TGFβ2), tumor necrosis factor, and alpha-induced protein 3 (TNFAIP3) gene (also known as A20), by analyzing the global gene expression profile in the GCB-derived DLBCL cell line SUDHL6 aer BCL11A downregulation (in press).

    Bone morphogenetic proteins (BMPs) are members of TGF-β superfamily of signaling molecules. Deregulation of BMPs signaling pathways has been reported in certain human cancers. BMPR2 has tumor-suppressive functions in mammary carcinoma and B-CLL12,13. BMPR2 was strongly expressed in acute promyelocytic leukemia, as well as in AML-M4 and multiple myeloma14. However, the role of BMPs in B-lymphoma remains unknown. The EP300 gene encodes the adenovirus E1A-associated cellular p300 transcriptional co-activator protein. It is important in the processes of cell proliferation and di ff erentiation15,16. TNFAIP3 is a putative tumor suppressor gene in B-cell lymphomagenesis and the frequency of TNFAIP3 gene inactivation was observed in di ff erent subtypes of NHL17.

    Although BMPR2, EP300, TGFβ2, and TNFAIPI3 have been studied in lymphoma or leukemia, no report has compared the expression of the four genes among B-lymphoma cells, the healthy control, and myeloid leukemia. In this study, quantitative reverse transcription polymerase chain reaction (qRT-PCR) was used to analyze the expression levels of BMPR2, EP300, TGFβ2, and TNFAIPI3 in B-lymphoma and myeloid leukemia cell lines.

    Materials and methods

    Cell lines

    Human B-lymphoma cell lines (DG-75, EB1, OCI-LY-3, and SUDHL6) were kindly provided by Prof. Ailin Guo (Institute of Pathology, Cornell University). Human B-lymphoma cell lines (Daudi, Raji) and myeloid leukemia cell lines (HL-60, NB4, U937, and K562) were purchased from a cell bank in Shanghai, China. The cells were cultured at 37 ℃ in an atmosphere containing 5% CO2in RPMI-1640 medium supplemented with penicillin (100 U/mL), streptomycin (0.1 mg/mL), and 10% fetal calf serum.

    Ten healthy volunteers served as control (seven males and three females, 22-62 years old; median age, 31 years). All procedures were conducted in accordance with the guidelines of Medical Ethics commiees of the health bureau of Guangdong Province, PR China. Peripheral blood was collected by heparin anticoagulation. Peripheral blood mononuclear cells (PBMNCs) were separated with the use of the Ficoll-Hypaque gradient centrifugation method.

    RNA extraction and cDNA synthesis

    RNA was extracted using the Trizol kit (Invitrogen, Carlsbad, CA, USA) and reversely transcribed into the fi rst-strand cDNA with the use of random hexamer primers and the reverse transcriptase Superscript II Kit (Invitrogen, USA), according to the manufacturer’s instructions. RNA purity and concentration was measured with a spectrophotometer.e integrity of RNA was checked on a 1% agarose gel. Glyceraldehyde-3-phosphate dehydrogenase (GAPDH) gene by qRT-PCR was used to determine the quality of the synthesized cDNA.

    Real-time quantitative PCR with SYBR green I

    The 2–ΔCt×100% method could be used to analyze the relative changes in gene expression from real-time quantitative PCR experiments18,19. Before applying the method to detect gene expression level, the targeted genes and the GAPDH gene should be determined to have high amplification efficiency. Therefore, a validation experiment was conducted using template serial dilutions of the cell lines cDNA covering the five orders of magnitude, 0.0001, 0.001, 0.01, 0.1, and 1. Standard curves were generated by ploing the Ct values against the logarithm starting quantity of the series dilution of cDNA template. The slope and correlation coe ffi cient (R2) were determined by linear regression analysis. Briefly, the primers were designed and synthesized (Invitrogen, USA).e following primer sequences used in PCR reactions were shown in Table 1. The total reaction volume is20 μL. Reaction conditions started with enzyme activation at 95 ℃for 10 min, followed by 40 cycles of 95 ℃ for 15 s, 60 ℃ for 30 s, and 80 ℃ for 5 s. At the end of each run, a melting curve was performed starting at 65 ℃ to 95 ℃ with an increase of 1 ℃ per 2 s to verify primer specificities. Each run was completed with a melting curve analysis to con fi rm the speci fi city of the ampli fi cation and the absence of primer dimmers. The qRT-PCR was repeated in at least three separate experiments. The PCR products were visualized and separated on 2% agarose gel electrophoresis.

    Table 1 Primer sequences for real-time polymerase chain reaction

    Statistical analysis

    Nonparametric test analysis of two independent samples was used for the relative expression levels of gene mRNA in di ff erent samples, whereas the Mann-Whitney U test was used for non-normally distributed data using the SPSS 13.0 statistical soware. Di ff erences were considered statistically signi fi cant at P<0.05.

    Results

    PCR product analysis

    R2 values of standard curves for BMPR2, EP300, TGFβ2, and TNFAIP3 reactions are above 0.99.e ampli fi cation e ffi ciencies of the four genes and the GAPDH control gene were above 95%.e high ampli fi cation e ffi ciency of the four genes was consistent with that of the GAPDH reference gene.e PCR products from the GAPDH control gene and the four genes were confirmed using 2% gel electrophoresis (data not shown).

    TNFAIP3genes in B-lymphoma cell lines

    Ten malignancy hematology cell lines (six B-malignancy cells and four myeloid cells) were assayed for RNA expression levels. B-malignancy cells include Burkitt’s lymphoma cell lines (EB1, Daudi, DG75, and Raji) and GCB DLBCL-derived cell lines (OCI-LY-3 and SUDHL6).e mRNA expression level for each of the four genes was normalized to the reference gene (GAPDH). The ΔCt was calculated for all four genes. According to the relative qRT-PCR formula: 2–ΔCt×100%, the relative expression level of TGFβ2 mRNA in cell lines from B-cell malignancies was signi fi cantly higher than that in the cells from the healthy control (P<0.05). On the other hand, the expression level of TNFAIP3 mRNA in B-malignant cells was significantly lower than that of the healthy control (P<0.05). As shown in Figure 1, the median quantities of TGFβ2 and TNFAIP3 expression in these B-cell lines are 6.25% and 4.78%, respectively, whereas the relative median expression levels of the two genes in the healthy group are 0.12% and 164.74%.e relative expression levels of BMPR2 and

    EP300 mRNA indicated no signi fi cant di ff erence between B-cell malignant cell lines and PBMNCs of the healthy group (P>0.05). In B-lymphoma cell lines, correlation analyses revealed that the expression of BMPR2 and TNFAIP3 (r=0.882, P=0.04) had signi fi cant positive relation.

    Figure 1 The relative expression levels of BMPR2, EP300, TGFβ2, and TNFAIP3 mRNA in B-lymphoma cell lines and myeloid leukemia cell lines. Results shown are the boxplots of the expression levels of the genes. Numbers 4, 7 (A) and 8, 10, 13, 14, 28 (B) represent singular value. The expression levels of TGFβ2 and TNFAIP3 mRNA were found to be signi fi cantly different between the B-lymphoma cell lines (A) and the healthy control (B) (P<0.05). The expression levels of BMPR2, EP300, and TNFAIP3 mRNA were revealed to be significantly different between the myeloid leukemia cell lines (C) and the healthy control (P<0.05).

    BMPR2, EP300, TGFβ2, and TNFAIP3 gene expression in B-malignant and myeloid leukemia cell lines

    As shown in Figure 1, the relative expression levels of BMPR2, EP300, and TNFAIP3 mRNA in the cell lines from B-cell malignancy were significantly higher than those cell lines from myeloid leukemia (P<0.05), whereas the relative expression levels of TGFβ2 mRNA showed no significant difference between B-cell malignant cell lines and myeloid leukemia cell lines (P>0.05).

    Discussion

    In this study, BMPR2, EP300, TGFβ2, and TNFAIP3 mRNA expression were determined by qRT-PCR using SYBR Green I dye. Results showed that the high amplification efficiency of these genes was consistent with that of GAPDH, suggesting that the 2–ΔCt×100% method can be used in quantifying the relative expression levels of the gene mRNA. This study revealed the expression of TGFβ2 and TNFAIP3 mRNA in B-malignant cells were significantly different from those of the healthy control. Meanwhile, the expression levels of BMPR2, EP300, and TNFAIP3 mRNA in myeloid leukemia cells were significantly lower than those of healthy people.

    Deregulated or aberrant TGF-β signaling has been strongly implicated in the pathogenesis of human solid tumors, while less is known about the role of this pathway in lymphoma pathogenesis20. TGF-β has either a tumor-suppressing or tumor-promoting function depending on cellular context21. Moreover, TGF-β is overexpressed in chronic lymphocytic leukemia. TGF-β functions as an autocrine growth inhibitor in chronic lymphocytic leukemia B-cells22. In the study of Ho et al.23, TGFβ2 was expressed in normal B-cell differentiation of the germinal center, especially from the follicular center cell stage to the postfollicular plasma cell stage. However, there was no expression of TGF-β in specimens from patients with neoplastic NHL. In this study, the expression level of TGFβ2 mRNA in PBMNCs from the healthy control is almost lacking. The expression level of TGFβ2 mRNA in the cell lines from B-malignancies was significantly higher than those in the cells from the healthy control. Furthermore, TGF-β functions as either suppressing or promoting the e ff ect on tumors need to be investigated. TNFAIP3 inactivation has been reported in various B-cell lymphomas. In GCB DLBCL, the expression of TNFAIP3 was lower than that in ABC DLBCL17. Meanwhile, Paik et al.24observed that TNFAIP3 deletion was in similar frequencies in GCB and non-GCB/ABC DLBCL using fluorescence in situ hybridization. These contradictory observations may reflect the diversified roles of TNFAIP3 in DLBCL. These results showed that the expression level of TNFAIP3 mRNA in B-malignant cells was significantly lower than that of the healthy control, suggesting possible deletion of TNFAIP3 gene in the B-lymphoma cells, which is in accordance with previous observations23. More so, TNFAIP3 gene was expressed at lower levels in GCB DLBCL cell lines than in Burki’s lymphoma cell lines.

    EP300 mutations were recently identified as a major pathogenetic mechanism shared by common forms of B-cell NHLs25. By contrast, the findings in this study demonstrate that the expression levels of BMPR2 and EP300 mRNA had no significant difference between B-cell malignant cell lines and PBMNCs of the healthy people.

    Results indicate that the expression levels of BMPR2, EP300, and TNFAIP3 mRNA in myeloid leukemia cell lines were signi fi cantly lower than those of healthy people or B-malignant cell lines. BMPR2, EP300, and TNFAIP3 mRNA have been observed to be almost absent in myeloid leukemia cell lines.is observation indicates that the expression patterns of BMPR2, EP300, and TNFAIP3 in B-cell lymphoma may be signi fi cantly di ff erent from myeloid leukemia cell lines. Although the median quantity of TGFβ2 expression in B-lymphoma cell lines is obviously higher than that of the myeloid leukemia cell lines, no statistically signi fi cant di ff erence is observed.is fi nding might denote a large variance of TGFβ2 expression level (three orders of magnitude) in the B-lymphoma cell lines. Additionally, in the di ff erent B-lymphocyte malignant cell lines, the expression levels of BMPR2, EP300, TGFβ2, and TNFAIP3 mRNA were quite different, which may be related to the heterogeneity of B-cell lymphoma.

    Little is known about the expression correlation between BMPR2 and TNFAIP3 genes in B-cell lymphoma. This study showed that the expression of BMPR2 and TNFAIP3 had a significant positive relation in B-lymphoma cell lines. These results indicate that a positively correlated expression patternmay be a feature in B-cell lymphoma. However, increasing the number of samples for validating the expression relation of the two genes is needed.

    In conclusion, the expression patterns of BMPR2, EP300, TGFβ2, and TNFAIP3 genes were characterized in B-lymphoma cells. Meanwhile, the differential expression pattern needs to increase the sample numbers to be further studied in B-cell malignancies. In addition, further biological studies are needed to determine if TGFβ2 and TNFAIP3 are therapeutic targets for B-cell lymphoma.

    Acknowledgements

    The work was supported by the Guangdong Province Key Foundation of Science and Technology Program (Grant No. 2009B0507000029), the Guangdong Province Science and Technology Program (Grant No. 2012B031800474), and a grant from the Overseas Chinese Affairs Office of the State Council Key Discipline Construction Fund (Grant No. 51205002).

    Con fl ict of interest statement

    No potential con fl icts of interest are disclosed.

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    Cite this article as:He DM, Wu H, Wu XL, Ding L, Xu L, Li YQ. The gene expression patterns of BMPR2, EP300, TGFβ2, and TNFAIP3 in B-Lymphoma cells. Cancer Biol Med 2014;11:202-207. doi: 10.7497/ j.issn.2095-3941.2014.03.006

    Dong-Mei He

    E-mail: thedm@jnu.edu.cn

    Received April 9, 2014; accepted June 2, 2014.

    Available at www.cancerbiomed.org

    Copyright ? 2014 by Cancer Biology & Medicine

    Methods:The relative expression levels of BMPR2, EP300, TGFβ2, and TNFAIP3 mRNA in B-lymphoma cell lines, myeloid cell lines, as well as in cells from healthy volunteers, were determined by real-time quantitative reverse transcriptpolymerase chain reaction (qRT-PCR) with SYBR Green Dye. Glyceraldehyde-3-phosphate dehydrogenase (GAPDH) was used as reference.

    Results:e expression level of TGFβ2 mRNA in B-lymphoma cell lines was signi fi cantly higher than those in the cells from the healthy control (P<0.05). However, the expression level of TNFAIP3 mRNA in B-malignant cells was signi fi cantly lower than that of the healthy control (P<0.05).e expression levels of BMPR2 and EP300 mRNA showed no signi fi cant di ff erence between B-malignant cell lines and the healthy group (P>0.05). In B-lymphoma cell lines, correlation analyses revealed that the expression of BMPR2 and TNFAIP3 (r=0.882, P=0.04) had signi fi cant positive relation.e expression levels of BMPR2, EP300, and TNFAIP3 mRNA in cell lines from myeloid leukemia were significantly lower than those in the cells from the healthy control (P <0.05).e expression levels of TGFβ2 mRNA showed no signi fi cant di ff erence between myeloid leukemia cell lines and the healthy control or B-malignant cell lines (P>0.05).e expression levels of BMPR2, EP300, and TNFAIP3 mRNA in B-lymphoma cells were signi fi cantly higher than those of the myeloid leukemia cells (P<0.05).

    Conclusion:Di ff erent expression paerns of BMPR2, EP300, TGFβ2, and TNFAIP3 genes in B-lymphoma cells exist.

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