Octreotide ameliorates hepatic ischemia-reperfusion injury through SNHG12/TAF15-mediated Sirt1 stabilization and YAP1 transcription.

BACKGROUND: Hepatic ischemia-reperfusion (HIR) injury is a pathological condition initiated by interrupted hepatic blood supply and exaggerated after reperfusion, which is one of the most lethal risks in liver transplantation and other liver surgeries. We aimed to investigate the protective mechanism of octreotide (Oct) against HIR injury. METHODS: The function of Oct was evaluated in the in vivo mouse model of HIR injury. Histological examinations were performed to assess the pathological changes. Serum parameters including ALT and AST were measured to evaluate the liver damage. qRT-PCR and western blot analysis were employed to determine the levels of long non-coding RNA SNHG12 (SNHG12) and autophagy or apoptosis-related proteins. RNA pull-down and RIP assays were used to verify the interaction between SNHG12 and TAF15. The transcriptional regulation of TAF15 in YAP1 was validated by ChIP and luciferase reporter assays. RESULTS: In the in vivo HIR injury model, Oct efficiently alleviated HIR-caused hepatic damage by suppressing apoptosis and activating autophagy. However, silencing of SNHG12 abrogated the protective effects of Oct via inactivating autophagy. Further mechanism investigation revealed that SNHG12 promoted the stabilization of Sirt1 and increased YAP1 transcriptional activity via interacting with TAF15. Up-regulation of Sirt1 and YAP1 was essential for maintaining the protective effect of Oct against HIR injury through increasing autophagic flux and suppressing apoptosis. CONCLUSIONS: Oct-induced up-regulation of SNHG12 attenuated HIR injury via promoting Sirt1 stabilization and YAP1 transcription to activate autophagy and repress apoptosis.