Chemotherapy resistance is the major issue of choriocarcinoma. Apoptosis always is the ultimate outcome of chemotherapeutic drugs, which considered one of the reasons of resistance. We investigated the role of STAT3/NFIL3 signaling‐inhibited apoptosis in chemotherapy resistance and whether Raddeanin A (RA) could be a new drug to reverse resistance. Established three drug‐resistant cell lines as JEG‐3/MTX, JEG‐3/5‐FU, and JEG‐3/VP16. NFIL3 and STAT3 expression was evaluated in the cells. The IC50 value, apoptosis rate and apoptins were observed with transfection of siNFIL3, Lenti‐OE™‐NFIL3, shSTAT3, and Lenti‐OE™‐STAT3 or RA treatment. In addition, the luciferase reporter analysis and co‐immunoprecipitation assays were used to investigate the relation of STAT3 and NFIL3. Hyper‐activation of STAT3 and NFIL3 expression were observed in three drug‐resistant cell lines. STAT3 enhanced NFIL3 transcriptional activity by binding the relative promoter region. Activated STAT3/NFIL3 pathway caused low rate of apoptosis which resulted in chemotherapy resistance. RA reduced the resistance index of resistant cells and induced caspase 3 dependent apoptosis, meanwhile it repressed the STAT3/NFIL3 activation. STAT3/NFIL3 axis‐inhibited apoptosis is a novel mechanism of chemotherapy resistance in choriocarcinoma. With the suppression of STAT3/NFIL3 axis and apoptosis induction, RA is a potential agent or lead candidate for improving chemotherapy.
Choriocarcinoma is sensitive to chemotherapy. However, drug resistance has become one of the major problems in recent years. Previous studies have shown that many tumors contained a small fraction of cells that exhibited enhanced tumor initiating potential and stem cell-like properties. It is hypothesized that cancer stem cells (CSCs) are organized in a cellular hierarchy. They also have the qualities of selfrenewal, chemoresistance, and so on. The identification of CSCs in choriocarcinoma and the mechanism contributing to their qualities remain largely unknown. This study focused on the role of AhR, a transcription factor abundantly expressed in many different types of cancer, in the regulation of the expansion of choriocarcinoma CSCs and the exact molecular mechanisms. Spheroid cells isolated from choriocarcinoma in serum-free conditions have stem cell-like characteristics. The expression and nuclear translocation of AhR were markedly elevated in spheroid cells. Activation of AhR by 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD) significantly increased the spheroid-forming efficiency, chemotherapy resistance, and ability to form tumor xenografts of the cells, whereas AhR knockdown, using short hairpin RNA (shRNA), dramatically reduced stem cell properties. Mechanistically, activating the β-catenin pathway might be an essential biological function of AhR during the regulation of the CSC characteristics. This study also identified ABCG2, which plays an important role in CSCs, as a direct target of AhR. Together, these results strongly suggested the participation of AhR in choriocarcinoma carcinogenesis. Targeting AhR may provide a novel therapeutic opportunity for choriocarcinoma. ARTICLE HISTORY
Choriocarcinoma (CC) is a trophoblast tumor prone to early distant organ metastases. At present, the main treatment for CC is chemotherapy, but chemotherapy resistance readily occurs and leads to treatment failure. H19 is a long noncoding RNA, and its abnormal expression has been found in various tumors, including CC. H19 is also considered to be related to the drug resistance mechanism of the same cancers. To investigate the role of H19 in drug‐resistant CC cells, the following experiments were designed. We used human CC cell line JEG‐3 to establish cell lines resistant to methotrexate and 5‐fluorouracil (JEG‐3/MTX and JEG‐3/5‐FU) and detected the expression of H19 in JEG‐3, JEG‐3/MTX, JEG‐3/5‐FU cells, JEG‐3 with MTX, and JEG‐3 with 5‐FU. We found that the expression of H19 in the JEG‐3/MTX and JEG‐3/5‐FU cells were significantly higher than that in JEG‐3 cells. JEG‐3 cells were treated with MTX or 5‐FU for and quantitative real‐time polymerase chain reaction assay revealed that H19 messenger RNA expression increased. Furthermore, after H19 was knocked out, the drug resistance index of the JEG‐3/MTX and JEG‐3/5‐FU cells decreased; the proliferation, migration, and invasion ability diminished significantly; and apoptosis increased significantly. Finally, we detected the total and phosphorylation protein expression of phosphatidylinositol‐3‐kinase (PI3K), protein kinase B (AKT), and mammalian target of rapamycin (mTOR) in the JEG‐3/MTX and JEG‐3/5‐FU cells. The total protein of PI3K, AKT, and mTOR in the H19 knockout resistant cells showed no significant change relative to those in the H19 non‐knockout resistant cells, whereas the phosphorylated proteins of PI3K, AKT, and mTOR were significantly decreased. Phosphorylated proteins of PI3K, AKT, and mTOR in the JEG‐3/MTX and JEG‐3/5‐FU cells were significantly higher than that in JEG‐3 cells. After using inhibition of phosphorylated PI3K/AKT/mTOR, the proliferation, migration, and invasion ability of the JEG‐3/MTX and JEG‐3/5‐FU cells diminished significantly; and apoptosis increased significantly. On the basis of the above experiments, we concluded that H19 is related to the drug resistance of CC, and the knockout of H19 can reduce the drug resistance of resistant CC cells; and decrease the proliferative, migratory, and invasive ability; and increase the apoptosis. PI3K/AKT/mTOR pathway might be involved in H19‐mediated effects. H19 is expected to be a therapeutic target for the treatment of drug‐resistant chorionic carcinoma.
Unlike other members of the VEGF family, the function of VEGF-B in tumor progression remains to be elucidated. Thus, the present study aimed to determine the function of VEGF-B in human choriocarcinoma cells by investigating its detailed effects and molecular mechanisms. VEGF-B and aryl hydrocarbon receptor (AhR) expression were evaluated by reverse transcription-quantitative PCR analysis and western blot analysis in JEG-3 cells and choriocarcinoma stem-like cells (CSLCs) and their proliferation, migration, and invasion after the transfection of short hairpin RNA VEGF-B, 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD; AhR agonist) treatment or StemRegenin 1 (SR1; AhR antagonist) treatment were examined by cell proliferation assay, wound healing assay and Transwell assay. In addition, luciferase reporter analysis and bioinformatics data mining were used to investigate the association between VEGF-B and AhR. Upregulation of VEGF-B and AhR expression was observed in CSLCs. Following VEGF-B knockdown or SR1 treatment, the proliferative, migratory, and invasive abilities of CSLCs were significantly decreased, contrary to the findings after TCDD treatment. It was also found that AhR enhanced VEGF-B transcriptional activity by binding to the relative promoter region. These observations indicated that VEGF-B may be an oncogene that promotes choriocarcinoma cell migration and invasion targeted by AhR. Therefore, targeting VEGF-B may provide a novel therapeutic opportunity for choriocarcinoma.
BackgroundMost ovarian cancer patients with poor prognosis and immune microenvironment play a vital role in the progression of ovarian cancer. We aim to develop a tumor-associated macrophage related gene (TAMRGs) prognostic signature that can stratify and predict overall survival for ovarian cancer.MethodsWe acquired single cell and bulk transcriptome raw data of ovarian cancer from The Cancer Genome Atlas (TCGA) and Gene Expression Omnibus (GEO). The immune landscape was identified in primary and ascites of ovarian cancer. CIBERSORT deconvolution algorithm, Weighted gene co-expression network analysis (WGCNA), univariate cox analysis, LASSO algorithm, and multivariate cox analysis were performed for the identification of TAMRG and the development of prognostic signature.Results We identified inter-and intra-patient heterogeneity for immune infiltration cells at a single-cell resolution. Tumor infiltration macrophages showed immunosuppressive characteristics with an M2 phenotype. T cell CD4 memory activated, mast cell activated, neutrophils and macrophages M2 were negatively correlated with overall survival, while macrophages M1 was positively correlated. A total of 219 TAMRGs were identified and a novel 6-gene signature (TAP1, CD163, VSIG4, IGKV4-1, CD3E, and MS4A7) with superior prognostic independence was established.ConclusionsThe TAMRG-based signature is expected to be a promising target for prognosis and treatment response of ovarian cancer.
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