Abstract
Diabetes involves multi-organ complications that seriously threaten human life and health, and has become a major public health problem of global concern. Unfortunately, clinical management strategies for diabetic complications are still in their "infancy", restricted by a limited understanding of their complex pathological mechanism. As is well established, lipid metabolism disorder is the characteristic pathological factors of diabetes, but the detailed molecular mechanisms driving the progression of multi-organ complications remain obscure. Protein S-acylation (often referred to as S-palmitoylation) is a reversible lipid modification that reversibly binds fatty acids to protein-specific cysteine (Cys) residues through palmitoyl acyl transferases (PATs, also known as DHHCs) and deacylation enzymes, which is involved in the pathological progression of a variety of complex diseases such as cancer, neurological disorders and metabolic syndrome. Notably, recent studies have shown that protein S-acylation drives the progression of diabetes and its multiple complications, and targeted intervention in the protein S-acylation process significantly alleviates the progression of diabetes and its complications, suggesting that protein S-acylation may be a common pathological link and intervention target of diabetes complications. Therefore, this review systematically comprehends the contribution of protein S-acylation to the progression of diabetes and its complications, summarizes the influence of the diabetic environment on S-acylation related enzymes, as well as providing an in-depth analysis of current drugs, measures, and challenges in targeting S-acylation. Finally, the accessibility of targeting protein S-acylation to prevent diabetes and its complications and the focus of future in-depth studies are envisioned, with a view to providing comprehensive and in-depth references and rationale for future novel strategies targeting protein S-acylation to prevent and treat diabetes and its multi-organ complications.