通过一种非依赖乙酰化的机制，羧酸酰胺 SIRT1 抑制剂阻断 DBC1 的结合。

Carboxamide SIRT1 inhibitors block DBC1 binding via an acetylation-independent mechanism.

机构信息

Department of Genetics, Harvard Medical School, Boston, MA, USA.

出版信息

Cell Cycle. 2013 Jul 15;12(14):2233-40. doi: 10.4161/cc.25268.

DOI:10.4161/cc.25268

PMID:23892437

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3755073/

Abstract

SIRT1 is an NAD (+) -dependent deacetylase that counteracts multiple disease states associated with aging and may underlie some of the health benefits of calorie restriction. Understanding how SIRT1 is regulated in vivo could therefore lead to new strategies to treat age-related diseases. SIRT1 forms a stable complex with DBC1, an endogenous inhibitor. Little is known regarding the biochemical nature of SIRT1-DBC1 complex formation, how it is regulated and whether or not it is possible to block this interaction pharmacologically. In this study, we show that critical residues within the catalytic core of SIRT1 mediate binding to DBC1 via its N-terminal region, and that several carboxamide SIRT1 inhibitors, including EX-527, can completely block this interaction. We identify two acetylation sites on DBC1 that regulate its ability to bind SIRT1 and suppress its activity. Furthermore, we show that DBC1 itself is a substrate for SIRT1. Surprisingly, the effect of EX-527 on SIRT1-DBC1 binding is independent of DBC1 acetylation. Together, these data show that protein acetylation serves as an endogenous regulatory mechanism for SIRT1-DBC1 binding and illuminate a new path to developing small-molecule modulators of SIRT1.

摘要

SIRT1 是一种 NAD（+）依赖性去乙酰化酶，可抵抗与衰老相关的多种疾病状态，并且可能是卡路里限制对健康有益的部分原因。因此，了解 SIRT1 在体内是如何被调控的，可能会为治疗与年龄相关的疾病提供新的策略。SIRT1 与内源性抑制剂 DBC1 形成稳定的复合物。目前，人们对 SIRT1-DBC1 复合物形成的生化性质、其调控方式以及是否可以通过药理学方法阻断这种相互作用知之甚少。在这项研究中，我们表明 SIRT1 催化核心内的关键残基通过其 N 端区域与 DBC1 结合，并且几种羧酰胺 SIRT1 抑制剂，包括 EX-527，可完全阻断这种相互作用。我们确定了 DBC1 上两个调节其与 SIRT1 结合能力并抑制其活性的乙酰化位点。此外，我们还表明 DBC1 本身是 SIRT1 的底物。令人惊讶的是，EX-527 对 SIRT1-DBC1 结合的影响与 DBC1 的乙酰化无关。这些数据表明，蛋白质乙酰化是 SIRT1-DBC1 结合的内源性调节机制，并为开发 SIRT1 的小分子调节剂开辟了新途径。

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