Mechanisms and functions of protein S-acylation

Abstract

Over the past two decades, protein S-acylation (often referred to as S-palmitoylation) has emerged as an important regulator of vital signalling pathways. S-Acylation is a reversible post-translational modification that involves the attachment of a fatty acid to a protein. Maintenance of the equilibrium between protein S-acylation and deacylation has demonstrated profound effects on various cellular processes, including innate immunity, inflammation, glucose metabolism and fat metabolism, as well as on brain and heart function. This Review provides an overview of current understanding of S-acylation and deacylation enzymes, their spatiotemporal regulation by sophisticated multilayered mechanisms, and their influence on protein function, cellular processes and physiological pathways. Furthermore, we examine how disruptions in protein S-acylation are associated with a broad spectrum of diseases from cancer to autoinflammatory disorders and neurological conditions. Protein S-acylation is involved in many pathophysiological processes. Here, Mesquita et al. discuss the structure, function and regulation of S-acylation and deacylation enzymes and describe how this post-transcriptional modification precisely controls protein–cell membrane interactions. Potential therapeutic applications of S-acylation are also highlighted.