Organ Protection by Caloric Restriction Depends on Activation of the De Novo NAD+ Synthesis Pathway

NAD+激酶 烟酰胺腺嘌呤二核苷酸 锡尔图因 生物化学 转录组 西妥因1 生物 代谢途径 生物合成 下调和上调 基因 基因表达
作者
Martin R. Späth,Karla Johanna Ruth Hoyer-Allo,Lisa Seufert,Martin Höhne,Christina Lucas,Theresa Bock,Lea Isermann,Susanne Brodesser,Jan‐Wilm Lackmann,Katharina Kiefer,Felix C. Koehler,Katrin Bohl,Michael Ignarski,Petra Schiller,Marc Johnsen,Torsten Kubacki,Franziska Grundmann,Thomas Benzing,Aleksandra Trifunović,Marcus Krüger
出处
期刊:Journal of The American Society of Nephrology [American Society of Nephrology]
卷期号:34 (5): 772-792 被引量:18
标识
DOI:10.1681/asn.0000000000000087
摘要

Significance Statement AKI is a major clinical complication leading to high mortality, but intensive research over the past decades has not led to targeted preventive or therapeutic measures. In rodent models, caloric restriction (CR) and transient hypoxia significantly prevent AKI and a recent comparative transcriptome analysis of murine kidneys identified kynureninase (KYNU) as a shared downstream target. The present work shows that KYNU strongly contributes to CR-mediated protection as a key player in the de novo nicotinamide adenine dinucleotide biosynthesis pathway. Importantly, the link between CR and NAD+ biosynthesis could be recapitulated in a human cohort. Background Clinical practice lacks strategies to treat AKI. Interestingly, preconditioning by hypoxia and caloric restriction (CR) is highly protective in rodent AKI models. However, the underlying molecular mechanisms of this process are unknown. Methods Kynureninase (KYNU) knockout mice were generated by Clustered Regularly Interspaced Short Palindromic Repeats (CRISPR) and comparative transcriptome, proteome and metabolite analyses of murine kidneys pre- and post-ischemia-reperfusion injury in the context of CR or ad libitum diet were performed. In addition, acetyl-lysin enrichment and mass spectrometry were used to assess protein acetylation. Results We identified KYNU as a downstream target of CR and show that KYNU strongly contributes to the protective effect of CR. The KYNU-dependent de novo nicotinamide adenine dinucleotide (NAD+) biosynthesis pathway is necessary for CR-associated maintenance of NAD+ levels. This finding is associated with reduced protein acetylation in CR-treated animals, specifically affecting enzymes in energy metabolism. Importantly, the effect of CR on de novo NAD+ biosynthesis pathway metabolites can be recapitulated in humans. Conclusions CR induces the de novo NAD+ synthesis pathway in the context of IRI and is essential for its full nephroprotective potential. Differential protein acetylation may be the molecular mechanism underlying the relationship of NAD+, CR, and nephroprotection.
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