The microRNA-transcription factor auto-regulatory feedback loop is a pivotal mechanism for homeostatic regulation of gene expression, and dysregulation of the feedback loop is tightly associated with tumorigenesis and progression. However, the mechanism underlying such dysregulation is still not well-understood. Here we reported that Krüppel-like factor 4 (KLF4), a stemness-associated transcription factor, promotes the transcription of miR-7 to repress its own translation so that a KLF4-miR-7 auto-regulatory feedback loop is established for mutual regulation of their expression. Interestingly, this feedback loop is unbalanced in prostate cancer (PCa) cell lines and patient samples due to an impaired miR-7-processing, leading to decreased mature miR-7 production and attenuated inhibition of KLF4 translation. Mechanistically, enhanced oncogenic Yes associated protein (YAP) nuclear translocation mediates sequestration of p72, a co-factor of the Drosha/DGCR8 complex for pri-miR-7s processing, leading to attenuation of microprocessors' efficiency. Knockdown of YAP or transfection with a mature miR-7 mimic can significantly recover miR-7 expression to restore this feedback loop, and in turn to inhibit cancer cell growth by repressing KLF4 expression in vitro. Thus, our findings indicate that targeting the KLF4-miR-7 feedback loop might be a potential strategy for PCa therapy.
Keywords: KLF4; YAP; miR-7; microRNA processing; prostate cancer.