科凯恩综合征小鼠反映了人类肾脏疾病，并且在从头合成烟酰胺腺嘌呤二核苷酸（NAD）方面存在缺陷。

Cockayne syndrome mice reflect human kidney disease and are defective in de novo NAD biosynthesis.

作者信息

Pekhale Komal, Tiwari Vinod, Hussain Mansoor, Bridges Christy C, Croteau Deborah L, Levi Moshe, Rosenberg Avi Z, Santo Briana, Yang Xiaoping, Kulikowicz Tomasz, Wang Xiaoxin X, Lee Jong-Hyuk, Bohr Vilhelm A

机构信息

DNA repair section, National Institute on Aging, National Institutes of Health, Baltimore, MD, 21224, USA.

Cecil H. and Ida Green Center for Reproductive Biology Sciences, University of Texas Southwestern Medical Center, Dallas, TX, 75390, USA.

出版信息

Cell Death Differ. 2025 May 15. doi: 10.1038/s41418-025-01522-7.

DOI:10.1038/s41418-025-01522-7

PMID:40374849

Abstract

Cockayne Syndrome (CS) is a premature aging disorder caused by mutations in the CSA and CSB genes involved in DNA metabolism and other cellular processes. CS patients display many features including premature aging, neurodegeneration, and kidney abnormalities. Nicotinamide dinucleotide (NAD) deprivation has been observed in CS patient-derived cells. NAD has essential roles in regulating cellular health, stress responses, and renal homeostasis. While kidney dysfunction is a common feature in CS patients, its molecular pathogenesis is not understood. Here, we report that severe kidney pathology is present in CS A and B mice. We find that the NAD biosynthetic pathways are impaired in kidneys from these mice. Using human renal tubular epithelial cells, we show that CSA/B downregulation causes persistent activation of the ATF3 transcription factor on the quinolinate phosphoribosyl transferase gene locus, a rate-limiting enzyme in de novo NAD biosynthesis in the kidney, causing impaired transcription and deficient NAD homeostasis.

摘要

科凯恩综合征（CS）是一种早衰性疾病，由参与DNA代谢和其他细胞过程的CSA和CSB基因突变引起。CS患者表现出许多特征，包括早衰、神经退行性变和肾脏异常。在源自CS患者的细胞中已观察到烟酰胺腺嘌呤二核苷酸（NAD）缺乏。NAD在调节细胞健康、应激反应和肾脏内环境稳定方面具有重要作用。虽然肾功能障碍是CS患者的常见特征，但其分子发病机制尚不清楚。在这里，我们报告CS A和B小鼠存在严重的肾脏病理改变。我们发现这些小鼠肾脏中的NAD生物合成途径受损。利用人肾小管上皮细胞，我们表明CSA/B下调导致喹啉酸磷酸核糖基转移酶基因位点上的ATF3转录因子持续激活，该酶是肾脏中从头合成NAD的限速酶，导致转录受损和NAD内环境稳定不足。

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科凯恩综合征小鼠反映了人类肾脏疾病，并且在从头合成烟酰胺腺嘌呤二核苷酸（NAD）方面存在缺陷。

Cockayne syndrome mice reflect human kidney disease and are defective in de novo NAD biosynthesis.

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