Background Because conventional prostate biopsy has some limitations, optimal variations of prostate biopsy strategies have emerged to improve the diagnosis rate of prostate cancer. We conducted the systematic review to compare the diagnosis rate and complications of transperineal versus transrectal prostate biopsy. Main body of the abstract We searched for online publications published through June 27, 2018, in PubMed, Scopus, Web of Science, and Chinese National Knowledge Infrastructure databases. The relative risk and 95% confidence interval were utilized to appraise the diagnosis and complication rate. The condensed relative risk of 11 included studies indicated that transperineal prostate biopsy has the same diagnosis accuracy of transrectal prostate biopsy; however, a significantly lower risk of fever and rectal bleeding was reported for transperineal prostate biopsy. No clue of publication bias could be identified. Short conclusion To conclude, this review indicated that transperineal and transrectal prostate biopsy have the same diagnosis accuracy, but the transperineal approach has a lower risk of fever and rectal bleeding. More studies are warranted to confirm these findings and discover a more effective diagnosis method for prostate cancer. Electronic supplementary material The online version of this article (10.1186/s12957-019-1573-0) contains supplementary material, which is available to authorized users.
Background N6-methyladenosine (m6A) is the most abundant modification in mRNA of humans. Emerging evidence has supported the fact that m6A is comprehensively involved in various diseases especially cancers. As a crucial reader, YTHDF2 usually mediates the degradation of m6A-modified mRNAs in m6A-dependent way. However, the function and mechanisms of m6A especially YTHDF2 in prostate cancer (PCa) still remain elusive. Methods To investigate the functions and mechanisms of YTHDF2 in PCa, in vitro, in vivo biofunctional assays and epigenetics experiments were performed. Endogenous expression silencing of YTHDF2 and METTL3 was established with lentivirus-based shRNA technique. Colony formation, flow cytometry and trans-well assays were performed for cell function identifications. Subcutaneous xenografts and metastatic mice models were combined with in vivo imaging system to investigate the phenotypes when knocking down YTHDF2 and METTL3. m6A RNA immunoprecipitation (MeRIP) sequencing, mRNA sequencing, RIP-RT-qPCR and bioinformatics analysis were mainly used to screen and validate the direct common targets of YTHDF2 and METTL3. In addition, TCGA database was also used to analyze the expression pattern of YTHDF2, METTL3 and the common target LHPP in PCa, and their correlation with clinical prognosis. Results The upregulated YTHDF2 and METTL3 in PCa predicted a worse overall survival rate. Knocking down YTHDF2 or METTL3 markedly inhibited the proliferation and migration of PCa in vivo and in vitro. LHPP and NKX3–1 were identified as the direct targets of both YTHDF2 and METTL3. YTHDF2 directly bound to the m6A modification sites of LHPP and NKX3–1 to mediate the mRNA degradation. Knock-down of YTHDF2 or METTL3 significantly induced the expression of LHPP and NKX3–1 at both mRNA and protein level with inhibited phosphorylated AKT. Overexpression of LHPP and NKX3–1 presented the consistent phenotypes and AKT phosphorylation inhibition with knock-down of YTHDF2 or METTL3. Phosphorylated AKT was consequently confirmed as the downstream of METTL3/YTHDF2/LHPP/NKX3–1 to induce tumor proliferation and migration. Conclusion We propose a novel regulatory mechanism in which YTHDF2 mediates the mRNA degradation of the tumor suppressors LHPP and NKX3–1 in m6A-dependent way to regulate AKT phosphorylation-induced tumor progression in prostate cancer. We hope our findings may provide new concepts of PCa biology.
| INTRODUC TI ONBladder cancer (BCa) is the most common malignant tumour of the urinary tract and the 10th most common type of carcinoma worldwide. Approximately 549 000 new cases and 200 000 deaths were estimated by GLOBOCAN in 2018. 1 In 2019, approximately 80 470 patients (including 61 700 men) were diagnosed with BCa and 17 670 patients (including 12 870 men) died from BCa in the United States; thus, BCa ranks the forth in incidence and eighth in mortality in men. 2 The increasing trend in these numbers constantly urges researchers to better understand the mechanisms underlying the pathogenesis of BCa to identify potential therapies against BCa. m 6 A, a modification first identified in mRNA-enriched RNA fractions in 1974, 3 refers to methylation of the N6 position of adenosine bases, which are widely distributed in the mammalian mRNA. 4,5 With the application of available methods for detecting m 6 A, insights into the regulatory mechanism have been revealed in recent years. m 6 A RNA modification is a dynamic and reversible posttranscriptional modification process maintained by a multicomponent Abstract N6-Methyladenosine (m 6 A) modification, the most prevalent modification of eukaryotic messenger RNA (mRNA), is involved in the progression of various tumours.However, the specific role of m 6 A in bladder cancer (BCa) is still poorly understood.In this study, we demonstrated the tumour-promoting function and specific regulatory mechanism of m 6 A axis, consisting of the core 'writer' protein METTL3 and the major reader protein YTHDF2. Depletion of METTL3 impaired cancer proliferation and cancer metastasis in vitro and in vivo. Through transcriptome sequencing, m 6 A methylated RNA immunoprecipitation (MeRIP) and RIP, we determined that the METTL3/YTHDF2 m 6 A axis directly degraded the mRNAs of the tumour suppressors SETD7 and KLF4, contributing to the progression of BCa. In addition, overexpression of SETD7 and KLF4 revealed a phenotype consistent with that induced by depletion of the m 6 A axis. Thus, our findings on the METTL3/YTHDF2/SETD7/KLF4 m 6 A axis provide the insight into the underlying mechanism of carcinogenesis and highlight potential therapeutic targets for BCa. K E Y W O R D Sbladder cancer, carcinogenesis, METTL3/YTHDF2 m 6 A axis, mRNA degradation, RNA modification | 4093 XIE Et al.
As the most abundant and reversible RNA modification in eukaryotic cells, m6A triggers a new layer of epi‐transcription. M6A modification occurs through a methylation process modified by “writers” complexes, reversed by “erasers”, and exerts its role depending on various “readers”. Emerging evidence shows that there is a strong association between m6A and human diseases, especially cancers. Herein, we review bi‐aspects of m6A in regulating cancers mediated by the m6A‐associated proteins, which exert vital and specific roles in the development of various cancers. Generally, the m6A modification performs promotion or inhibition functions (dual role) in tumorigenesis and progression of various cancers, which suggests a new concept in cancer regulations. In addition, m6A‐targeted therapies including competitive antagonists of m6A‐associated proteins may provide a new tumour intervention in the future.
Emerging evidence has elucidated that microRNAs (miRNAs) transcribed from miRNA cluster at DLK-DIO3 imprinted domain are involved in various cancers. However, as one member of this cluster, the underlying mechanisms and functions of miR-381-3p in bladder cancer (BCa) still remains elusive. Here we demonstrate that the hypermethylated status of upstream maternally expressed gene 3 divergent methylation region reduces the expression of miR-381-3p in BCa by bisulfite-sequencing PCR. In vitro and in vivo experiments indicate that overexpression of miR-381-3p significantly inhibits cell proliferation via inducing G phase arrest and migration via down-regulating MET and CCNA2 induced EMT progression. CDK6/CCNA2/MET are all identified as the direct targets of miR-381-3p by bioinformatics analysis and dual-luciferase reporter assay. Furthermore, inhibition of CCNA2 mediated by miR-381-3p as the crucial biregulator not only participates in the proliferation regulation with CDK6 in cell cycle but also modulates the EMT progression via ROCK/AKT/β-catenin/SNAIL pathway, which establishes an EMT circuit combined with miR-381-3p/MET/AKT/GSK-3β/SNAIL pathway, and SNAIL is the last confocal target to induce EMT progression. To conclude, we propose 2 novel regulatory circuits mediated by miR-381-3p in BCa, which may assist in the development of more effective therapies against BCa in the future.-Li, J., Ying, Y., Xie, H., Jin, K., Yan, H., Wang, S., Xu, M., Xu, X., Wang, X., Yang, K., Zheng, X., Xie, L. Dual regulatory role of CCNA2 in modulating CDK6 and MET-mediated cell-cycle pathway and EMT progression is blocked by miR-381-3p in bladder cancer.
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