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The circHMGCS1-miR-205–5p-ErBB3 axis mediated the Sanggenon C-induced anti-proliferation effects on human prostate cancer

Jie Li, Xinyue Cao, Ting Chu, Kehao Lin, Lei Chen, Junlin Lv, Yu‐jun Tan, Miaomiao Chen, Minjing Li, Kejun Wang, Qiusheng Zheng, Defang Li

2022Pharmacological Research18 citationsDOIOpen Access PDF

Abstract

Prostate cancer (PCa) is associated with a high incidence and metastasis rate globally, resulting in an unsatisfactory prognosis and a huge economic burden due to the current deficient of therapeutic strategies. As the most abundant component of Cortex Mori, Sanggenon C (SC) is well known to possess bioactivities in tumors, but its mechanism is poorly understood. Consequently, we attempted to investigate whether SC could modulate circular RNA(s) levels and hence anti-PCa development. We found that SC dramatically promoted cell apoptosis and induced G0/G1 phase arrest in PCa cell lines via the circHMGCS1-miR-205-5p-ErBB3 axis. In brief, circHMGCS1 is highly expressed in PCa and is positively correlated with the degree of malignancy. Over-expression of circHMGCS1 is not only associated with the proliferation of PCa cells but also blocks SC-induced pro-apoptotic effects. As a verified sponge of circHMGCS1, miR-205-5p is down-regulated in PCa tumors, which negatively regulates PCa cell proliferation by modulating ErBB3 expression. After miR-205-5p mimics or inhibitors were used to transfect PCa cells, the effects of circHMGCS1 OE and SC on PCa cells were completely diminished. Similar to miR-205-5p inhibitors, siErBB3 could oppose SC-triggered pro-apoptotic effects on PCa cells. All these results were confirmed in vivo. Together, SC exerts its anti-tumor effects on PCa by inhibiting circHMGCS1 expression and results in the latter losing the ability to sponge miR-205-5p. Subsequently, unfettered miR-205-5p could mostly down-regulate ErBB3 expression by binding to the 5'UTR of ErBB3 mRNA, which eventually resulted in PCa cell cycle arrest and pro-apoptosis.

Topics & Concepts

Cancer researchApoptosisERBB3Prostate cancerCell growthmicroRNAMetastasisCell cycleChemistryCancerBiologySignal transductionCell biologyGeneBiochemistryGeneticsReceptor tyrosine kinaseCircular RNAs in diseasesMicroRNA in disease regulationRNA Research and Splicing
The circHMGCS1-miR-205–5p-ErBB3 axis mediated the Sanggenon C-induced anti-proliferation effects on human prostate cancer | Litcius