Excess dietary intake of saturated fatty acids (SFAs) induces glucose intolerance and metabolic disorders. In contrast, unsaturated fatty acids (UFAs) elicit beneficial effects on insulin sensitivity. However, it remains elusive how SFAs and UFAs signal differentially toward insulin signaling to influence glucose homeostasis. Here, using a croaker model, we report that dietary palmitic acid (PA), but not oleic acid or linoleic acid, leads to dysregulation of mTORC1, which provokes systemic insulin resistance. Mechanistically, we show that PA profoundly elevates acetyl-CoA derived from mitochondrial fatty acid β oxidation to intensify Tip60-mediated Rheb acetylation, which triggers mTORC1 activation by promoting the interaction between Rheb and FKBPs. Subsequently, hyperactivation of mTORC1 enhances IRS1 serine phosphorylation and inhibits TFEB-mediated IRS1 transcription, inducing impairment of insulin signaling. Collectively, our results reveal a conserved molecular insight into the mechanism by which Tip60-mediated Rheb acetylation induces mTORC1 activation and insulin resistance under the PA condition, which may provide therapeutic avenues to intervene in the development of T2D.
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