蛋白质的脂肪酸酰化:棕榈酸、肉豆蔻酸和辛酸的特殊作用

V. Rioux
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引用次数: 11

摘要

蛋白质的脂肪酸酰化对应于由脂肪酸衍生的酰基辅酶a与底物蛋白质的氨基酸残基的共价或翻译后共价连接。参与蛋白质酰化的细胞脂肪酸主要是饱和脂肪酸。棕榈酰化(s -酰化)对应于棕榈酸(C16:0)通过硫酯键与半胱氨酸残基侧链的可逆连接。n端肉豆蔻酰基化是指肉豆蔻酸(C14:0)通过酰胺键与许多真核生物和病毒蛋白的n端甘氨酸共价结合。辛酸酰化(o -酰化)通常涉及辛酸(辛酸,C8:0)与胃肽ghrelin的丝氨酸残基侧链之间形成酯键。越来越多的蛋白质(酶、激素、受体、致癌基因、肿瘤抑制因子、参与信号转导的蛋白质、真核生物和病毒结构蛋白)已被证明经历脂肪酸酰化。酰基部分的添加是蛋白质功能所必需的,通常介导蛋白质亚细胞定位、蛋白质-蛋白质相互作用或蛋白质-膜相互作用。因此,通过对蛋白质的共价修饰,这些饱和脂肪酸在调节蛋白质功能方面表现出新的特异性和重要作用。本文综述了近年来关于各类蛋白质酰化导致饱和脂肪酸调节多种途径的生物学能力的研究结果。最后,讨论了这些阐明的生化机制与膳食饱和脂肪酸的生理作用之间的营养联系。
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Fatty acid acylation of proteins: specific roles for palmitic, myristic and caprylic acids
Fatty acid acylation of proteins corresponds to the co- or post-translational covalent linkage of an acyl-CoA, derived from a fatty acid, to an amino-acid residue of the substrate protein. The cellular fatty acids which are involved in protein acylation are mainly saturated fatty acids. Palmitoylation (S-acylation) corresponds to the reversible attachment of palmitic acid (C16:0) via a thioester bond to the side chain of a cysteine residue. N-terminal myristoylation refers to the covalent attachment of myristic acid (C14:0) by an amide bond to the N-terminal glycine of many eukaryotic and viral proteins. Octanoylation (O-acylation) typically concerns the formation of an ester bond between octanoic acid (caprylic acid, C8:0) and the side chain of a serine residue of the stomach peptide ghrelin. An increasing number of proteins (enzymes, hormones, receptors, oncogenes, tumor suppressors, proteins involved in signal transduction, eukaryotic and viral structural proteins) have been shown to undergo fatty acid acylation. The addition of the acyl moiety is required for the protein function and usually mediates protein subcellular localization, protein-protein interaction or protein-membrane interaction. Therefore, through the covalent modification of proteins, these saturated fatty acids exhibit emerging specific and important roles in modulating protein functions. This review provides an overview of the recent findings on the various classes of protein acylation leading to the biological ability of saturated fatty acids to regulate many pathways. Finally, the nutritional links between these elucidated biochemical mechanisms and the physiological roles of dietary saturated fatty acids are discussed.
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