Isorhapontigenin (ISO), an active compound isolated from the Chinese herb Gnetum Cleistostachyum, exhibited strong preventive and therapeutic effects on bladder cancer (BC) both in vitro and in vivo. Our previous studies revealed that ISO-induced autophagy is crucial for its anti-cancer activity. However, the underlying mechanism remains unclear. Here, we showed that BECN1, an important autophagic protein, was induced by ISO treatment and played crucial roles in ISO-induced late phase of LC3B-dependent, and LC3A-independent autophagy, as well as anti-cancer activity. Downregulation of BECN1 was observed in human BCs and BBN-induced mouse invasive BC tissues, whereas co-treatment with ISO completely reversed BECN1 downregulation in BBN-induced mouse invasive BCs. Consistently, ISO treatment significantly increased BECN1 expression in vitro in a dose- and time-dependent manner. Depletion of BECN1 significantly impaired LC3B-dependent autophagy following ISO treatment, as well as abolished the inhibitory effect of ISO on anchorage-independent growth of human BC cells. Mechanistic studies revealed that BECN1 induction was mediated by ISO downregulation of c-Myc, which resulted in miR-613 reduction, in turn leading to increased NCL translation and further promoting NCL binding to BECN1 mRNA, subsequently stabilizing BECN1 mRNA. In conclusion, our results demonstrate that by activating c-Myc/miR-613/NCL axis, ISO treatment results in BECN1 posttranscriptional upregulation, which specifically initiates LC3B-dependent autophagy and anti-cancer activity. Our findings further strengths our application of ISO for therapy of high-grade invasive BC (HGIBC) patients.
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