4.6 Article

Biphasic transcriptional and posttranscriptional regulation of MYB by androgen signaling mediates its growth control in prostate cancer

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JOURNAL OF BIOLOGICAL CHEMISTRY
卷 299, 期 1, 页码 -

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DOI: 10.1016/j.jbc.2022.102725

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MYB, a proto-oncogene, is overexpressed in prostate cancer and promotes its growth, aggressiveness, and resistance to androgen-deprivation therapy. Androgen signaling regulates MYB expression through transcriptional upregulation mediated by androgen receptor binding to the MYB promoter. High-dose androgen treatment leads to decreased MYB stability and induction of miR-150, which suppresses MYB expression and PCa cell growth.
MYB, a proto-oncogene, is overexpressed in prostate cancer (PCa) and promotes its growth, aggressiveness, and resistance to androgen-deprivation therapy. Here, we examined the effect of androgen signaling on MYB expression and delineated the underlying molecular mechanisms. Paralleling a dichotomous effect on growth, low-dose androgen induced MYB expression at both transcript and protein levels, whereas it was suppressed in highdose androgen-treated PCa cells. Interestingly, treatment with both low- and high-dose androgen transcriptionally upregulated MYB by increasing the binding of androgen receptor to the MYB promoter. In a time-course assay, androgen induced MYB expression at early time points followed by a sharp decline in high-dose androgen-treated cells due to decreased stability of MYB mRNA. Additionally, profiling of MYB-targeted miRNAs demonstrated significant induction of miR-150 in high-dose androgen-treated PCa cells. We observed a differential binding of androgen receptor on miR-150 promoter with significantly greater occupancy recorded in high-dose androgen-treated cells than those treated with low-dose androgen. Functional inhibition of miR-150 relieved MYB suppression by high-dose androgen, while miR-150 mimic abolished MYB induction by low-dose androgen. Furthermore, MYB-silencing or miR-150 mimic transfection suppressed PCa cell growth induced by low-dose androgen, whereas miR-150 inhibition rescued PCa cells from growth repression by high-dose androgen. Similarly, we observed that MYB silencing suppressed the expression of androgenresponsive, cell cycle-related genes in low-dose androgentreated cells, while miR-150 inhibition increased their expression that support its biphasic growth control in PCa cells.

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