a b s t r a c tWe have previously reported that synthetic dsRNA can activate p21 expression by targeting the p21 promoter, thereby suppressing the proliferation of human bladder cancer cells. As complementarity between dsRNA and its target sequences is necessary for RNA activation, miRNAs may also trigger p21 expression through the same mechanism. Here, the expression levels of three miRNAs (miR-370, miR-1180 and miR-1236) decreased in bladder cancer tissues compared to healthy controls and the levels of these mRNAs positively correlated with p21 mRNA levels. The three miRNAs induced nuclear p21 expression through p21-promoter binding. Overexpression of the three miRNAs inhibited the proliferation of bladder cancer cells mainly by regulating p21. Therefore, these miRNAs could be candidates for anti-cancer drugs.
Cold-inducible RNA binding protein (CIRBP) has been reported to be associated with distinct tumorigenesis. In this study, we investigated the role of CIRBP in human bladder cancer (BCa), indicating that CIRBP is overexpressed in BCa tissues and cell lines to promote proliferation and migration. Moreover, CIRBP could induce expression of HIF-1α via binding to the 3′-UTR of its mRNA to increase the mRNA stability in BCa cells. Furthermore, we demonstrated that PTGIS is a HIF-1α targeted gene, a major regulator in hypoxic cancer progression by activating transcription of various oncogenes. Our results also suggested that overexpression of HIF-1α may suppress the expression of PTGIS in BCa cells, by binding to HRE sequence at the promoter region of PTGIS. In addition, we found a strongly downregulation of PTGIS in BCa tissue and transcriptionally inhibited by HIF-1α in BCa cells, which could be triggered by its DNA methylation. Further result suggested that knockdown of CIRBP could promote the expression of PTGIS, meanwhile knockdown of PTGIS could partially rescue CIRBP-deficiency induced inhibition of migration and proliferation in BCa cells. Taken together, our study indicated that CIRBP could be a novel oncogene in human bladder cancer inducing transcription of HIF-1α, which could inhibit expression of methylated PTGIS.
Considering the importance of microRNAs (miRNAs) in regulating cellular processes, we performed microarray analysis and revealed miR‐4324 as one of the most differentially expressed miRNAs in bladder cancer (BCa). Then, we discovered that miR‐4324 was a negative regulator of Rac GTPase activating protein 1 (RACGAP1) and that RACGAP1 functioned as an oncogenic protein in BCa. Our studies indicated that ectopic overexpression of miR‐4324 in BCa cells significantly suppressed cell proliferation and metastasis and enhanced chemotherapy sensitivity to doxorubicin by repressing RACGAP1 expression. Further studies showed that estrogen receptor 1 (ESR1) increased the expression of miR‐4324 by binding to its promoter, while the downregulation of ESR1 in BCa was caused by hypermethylation of its promoter. p‐STAT3 induced the enrichment of DNMT3B by binding to the ESR1 promoter and then induced methylation of the ESR1 promoter. In turn, RACGAP1 induced STAT3 phosphorylation, increasing p‐STAT3 expression and promoting its translocation to the nucleus. Therefore, the miR‐4324‐RACGAP1‐STAT3‐ESR1 feedback loop could be a critical regulator of BCa progression.
BackgroundPrevious study showed that dsP53-285 has the capacity to induce tumor suppressor gene p53 expression by targeting promoter in non-human primates’ cells. And it is well known that TP53 gene is frequently mutant or inactivated in human bladder cancer. Hereby, whether this small RNA can activate the expression of wild-type p53 and inhibit human bladder cancer cells remains to be elucidated.MethodsOligonucleotide and lentivirus were used to overexpress dsP53-285 and dsControl. Real-time PCR and western blot were used to detect genes’ mRNA and protein expression, respectively. Cell proliferation assay, colony formation, flow cytometry, transwell assay and wound healing assay were performed to determine the effects on bladder cancer cells proliferation and migration/invasion in vitro. Animal models were carried out to analyze the effects on cells growth and metastasis in vivo.ResultsTransfection of dsP53-285 into human bladder cancer cell lines T24 and EJ readily activate wild-type p53 expression by targeting promoter. Moreover, dsP53-285 exhibited robust capacity to inhibit cells proliferation and colony formation, induce cells G0/G1 arrest, suppress migration and invasion. Besides, the Cyclin-CDK genes (Cyclin D1 and CDK4/6) were down-regulated and the EMT-associated genes (E-cadherin, β-catenin, ZEB1 and Vimentin) were also expressed inversely after dsP53-285 treatment. In addition, dsP53-285 could also significantly suppress the growth of bladder cancer xenografts and metastasis in nude mice. Most importantly, the anti-tumor effects mediated by dsP53-285 were mainly achieved by manipulating wild-type p53 expression.ConclusionOur findings indicate that the dsP53-285 can upregulate wild-type p53 expression in human bladder cancer cells through RNA activation, and suppresses cells proliferation and metastasis in vitro and in vivo.Electronic supplementary materialThe online version of this article (doi:10.1186/s13046-016-0329-8) contains supplementary material, which is available to authorized users.
Accumulating data suggest that micro RNAs (miRNAs) or double-stranded RNAs (dsRNAs) can activate gene expression by targeting promoters. The cyclin-dependent kinase inhibitor p21 (CIP1/WAF1) (p21) has also been shown to suppress epithelial-mesenchymal transition (EMT) which plays a crucial role in the early stage of tumor metastases and invasiveness. In a previous study, we have reported that miR-370-5p is low-expressed in bladder cancer (BCa) tissues and cell lines. Here, we identified that miR-370-5p and sequence homology dsRNA (dsP21-555) fully complementary to promoter hold the potent abilities to induce p21 expression. Moreover, transfection of miR-370-5p or dsP21-555 into BCa cells remarkably inverts EMT-associated genes (increases epithelial cell makers E-cadherin and β-catenin, and decreases mesenchymal cell markers ZEB1 and Vimentin) expression mainly via regulating p21 expression. Besides, through manipulating p21, both the candidates can retard BCa cell migration and invasion. In summary, our results provide evidence that both endogenous and exogenous small RNAs may function to induce p21 expression by interacting with the similar promoter region and impede BCa metastasis.
We have previously demonstrated that miR-1180-5p has potent ability to upregulate p21 expression by targeting promoter and inhibit bladder cancer. This prompted us to conjecture that a candidate dsRNA (dsP21-397) with perfect complementarity to the miR-1180-5p target site of p21 promoter may also trigger p21 expression. Transfection of dsP21-397 into T24 and EJ cells significantly activated p21 expression at 72 h and the activation presented in a time-course and dose-dependent manner. Moreover, the p21-activated activities of dsP21-397 and miR-1180-5p are not significantly different. Overexpression of p21 downregulated Cyclin D1, CDK4/6, and Cyclin A2 expression, and thereby induced cell cycle arrest and inhibited proliferation. Moreover, dsP21-397 suppressed bladder cancer largely depended on manipulating p21. In conclusion, our study identifies a pair of miRNA-dsRNA mediating endogenous p21 overexpression.
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