Abstract
Activation of hepatic stellate cells (HSCs) is generally recognized as a central driver of liver fibrosis. Metabolism of fatty acids (FA) plays a critical role in the activation of HSCs. Proteomics analysis on lysine acetylation of proteins in activated HSCs in our previous study indicated that acetylation of the lysine residues on ACSF2 is one of the most significantly upregulated sites in activated-HSCs and K179 is its important acetylation site. However, the role of acetylation at K179 of ACSF2 on activation of HSCs and free fatty acids (FFA) metabolism remains largely unknown. The reported study demonstrates that acetylation at K179 of ACSF2 promoted HSCs activation. The targeted lipidomic analysis indicated K179 acetylation of ACSF2 mainly affected long chain fatty acids (LCFA) metabolism, especially oleic acid, elaidic acid and palmitoleic acid. And the liquid chromatography mass spectrometry (LC-MS) analysis further demonstrated the formation of many long-chain acyl-CoAs were catalyzed by acetylation at K179 of ACSF2 including oleic acid, elaidic acid and palmitoleic acid. In conclusion, this study indicated that ACSF2 may be a potential therapeutic targets by regulating the metabolism of LCFA for liver fibrosis.