Chemical Probes Reveal Sirt2’s New Function as a Robust “Eraser” of Lysine Lipoylation

SIRT2 赖氨酸 锡尔图因 酶动力学 化学 生物化学 NAD+激酶 计算生物学 生物 活动站点 氨基酸
作者
Yusheng Xie,Lanfang Chen,Rui Wang,Jigang Wang,Jingyu Li,Wei Xu,Yingxue Li,Shao Q. Yao,Liang Zhang,Quan Hao,Hongyan Sun
出处
期刊:Journal of the American Chemical Society [American Chemical Society]
卷期号:141 (46): 18428-18436 被引量:49
标识
DOI:10.1021/jacs.9b06913
摘要

Lysine lipoylation, a highly conserved lysine post-translational modification, plays a critical role in regulating cell metabolism. The catalytic activity of a number of vital metabolic proteins, such as pyruvate dehydrogenase (PDH), depends on lysine lipoylation. Despite its important roles, the detailed biological regulatory mechanism of lysine lipoylation remains largely unexplored. Herein we designed a powerful affinity-based probe, KPlip, to interrogate the interactions of lipoylated peptide/proteins under native cellular environment. Large-scale chemical proteomics analysis revealed a number of binding proteins of KPlip, including sirtuin 2 (Sirt2), an NAD+-dependent protein deacylase. To explore the potential activity of Sirt2 toward lysine lipoylation, we designed a single-step fluorogenic probe, KTlip, which reports delipoylation activity in a continuous manner. The results showed that Sirt2 led to significant delipoylation of KTlip, displaying up to a 60-fold fluorescence increase in the assay. Further kinetic experiments with different peptide substrates revealed that Sirt2 can catalyze the delipoylation of peptide (DLAT-PDH, K259) with a remarkable catalytic efficiency (kcat/Km) of 3.26 × 103 s-1 M-1. The activity is about 400-fold higher than that of Sirt4, the only mammalian enzyme with known delipoylation activity. Furthermore, overexpression and silencing experiments demonstrated that Sirt2 regulates the lipoylation level and the activity of endogenous PDH, thus unequivocally confirming that PDH is a genuine physiological substrate of Sirt2. Using our chemical probes, we have successfully established the relationship between Sirt2 and lysine lipoylation in living cells for the first time. We envision that such chemical probes will serve as useful tools for delineating the roles of lysine lipoylation in biology and diseases.
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