Inhibition of Sirtuin Deacylase Activity by Peroxynitrite

Kelsey Bohl, Sarah L. Wynia-Smith, Rachel A. Jones Lipinski, Brian C. Smith
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Abstract

Sirtuins are a class of enzymes that deacylate protein lysine residues using NAD+ as a cosubstrate. Sirtuin deacylase activity has been historically regarded as protective; loss of sirtuin deacylase activity potentially increases susceptibility to aging-related disease development. However, which factors may inhibit sirtuins during aging or disease is largely unknown. Increased oxidant and inflammatory byproduct production damages cellular proteins. Previously, we and others found that sirtuin deacylase activity is inhibited by the nitric oxide (NO)-derived cysteine post-translational modification S-nitrosation. However, the comparative ability of the NO-derived oxidant peroxynitrite (ONOO) to affect human sirtuin activity had not yet been assessed under uniform conditions. Here, we compare the ability of ONOO (donated from SIN-1) to post-translationally modify and inhibit SIRT1, SIRT2, SIRT3, SIRT5, and SIRT6 deacylase activity. In response to SIN-1 treatment, inhibition of SIRT1, SIRT2, SIRT3, SIRT5, and SIRT6 deacylase activity correlated with increased tyrosine nitration. Mass spectrometry identified multiple novel tyrosine nitration sites in SIRT1, SIRT3, SIRT5, and SIRT6. As each sirtuin isoform has at least one tyrosine nitration site within the catalytic core, nitration may result in sirtuin inhibition. ONOO can also react with cysteine residues, resulting in sulfenylation; however, only SIRT1 showed detectable peroxynitrite-mediated cysteine sulfenylation. While SIRT2, SIRT3, SIRT5, and SIRT6 showed no detectable sulfenylation, SIRT6 likely undergoes transient sulfenylation, quickly resolving into an intermolecular disulfide bond. These results suggest that the aging-related oxidant peroxynitrite can post-translationally modify and inhibit sirtuins, contributing to susceptibility to aging-related disease.

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亚硝酸过氧化物对 Sirtuin 脱乙酰酶活性的抑制作用
Sirtuins 是一类利用 NAD+ 作为辅助底物对蛋白质赖氨酸残基进行脱乙酰化的酶。sirtuin脱乙酰酶的活性历来被认为具有保护作用;sirtuin脱乙酰酶活性的丧失可能会增加衰老相关疾病的易感性。然而,在衰老或疾病过程中,哪些因素可能会抑制sirtuin,目前还不清楚。氧化剂和炎症副产物生成的增加会损害细胞蛋白质。此前,我们和其他人发现,sirtuin 脱酰化酶的活性会受到一氧化氮(NO)衍生的半胱氨酸翻译后修饰 S-亚硝基化的抑制。然而,NO衍生的氧化剂过氧化亚硝酸盐(ONOO-)影响人类sirtuin活性的比较能力尚未在统一条件下进行评估。在这里,我们比较了 ONOO-(由 SIN-1 捐献)翻译后修饰和抑制 SIRT1、SIRT2、SIRT3、SIRT5 和 SIRT6 脱酰酶活性的能力。在 SIN-1 处理后,SIRT1、SIRT2、SIRT3、SIRT5 和 SIRT6 脱乙酰酶活性的抑制与酪氨酸硝化的增加相关。质谱分析在 SIRT1、SIRT3、SIRT5 和 SIRT6 中发现了多个新的酪氨酸硝化位点。由于每种 sirtuin 异构体的催化核心中至少有一个酪氨酸硝化位点,硝化可能导致 sirtuin 受抑制。ONOO- 还能与半胱氨酸残基发生反应,导致亚磺酰化;然而,只有 SIRT1 出现了可检测到的过亚硝酸盐介导的半胱氨酸亚磺酰化。虽然 SIRT2、SIRT3、SIRT5 和 SIRT6 没有出现可检测到的亚磺酰化,但 SIRT6 可能发生了瞬时亚磺酰化,并很快转化为分子间的二硫键。这些结果表明,与衰老相关的氧化剂过氧化亚硝酸盐可对sirtuins进行翻译后修饰和抑制,从而导致衰老相关疾病的易感性。
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