Abstract
Mesenchymal stem cell-derived extracellular vesicles (MSC-EVs) show powerful potential in the treatment of multiple diseases. However, the low yield of MSC-EVs severely restricts their clinical application. Here, heat shock (HS), a moderate external stimulus, can enhance EVs release of MSCs by upregulating autophagosome formation. Mechanistically, HS elevates TRPV2 expression to induce Ca(2+) influx and then promotes the activity of two succinylases, SUCLG2 and OXCT1, followed by increasing the succinylation of YWHAZ (a 14-3-3 protein) at lysine 11 (K11). Acting as an adaptor protein, YWHAZ's succinylation at K11 inhibits its degradation, reinforcing YWHAZ-ULK1 binding, which upregulates ULK1 S555 phosphorylation to promote autophagosome formation and enhance EV release of MSCs. Additionally, the improved therapeutic efficacy of HS-treated MSCs via EV release has been shown in two liver injury models-hepatic ischemia/reperfusion injury (HIRI) and acetaminophen-induced liver injury. These findings proved that HS, an easily implementable and cost-effective method, can be used to elevate MSC-EV yield in mass production.