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Identification of purine biosynthesis as an NADH-sensing pathway to mediate energy stress

Ronghui Yang, Chuanzhen Yang, Lingdi Ma, Yiliang Zhao, Zihao Guo, Jing Niu, Qiaoyun Chu, Yingmin Ma, Binghui Li

2022Nature Communications54 citationsDOIOpen Access PDF

Abstract

Abstract An enhanced NADH/NAD + ratio, termed reductive stress, is associated with many diseases. However, whether a downstream sensing pathway exists to mediate pathogenic outcomes remains unclear. Here, we generate a soluble pyridine nucleotide transhydrogenase from Escherichia coli ( Ec STH), which can elevate the NADH/NAD + ratio and meantime reduce the NADPH/NADP + ratio. Additionally, we fuse Ec STH with previously described Lb NOX (a water-forming NADH oxidase from Lactobacillus brevis ) to resume the NADH/NAD + ratio. With these tools and by using genome-wide CRISPR/Cas9 library screens and metabolic profiling in mammalian cells, we find that accumulated NADH deregulates PRPS2 (Ribose-phosphate pyrophosphokinase 2)-mediated downstream purine biosynthesis to provoke massive energy consumption, and therefore, the induction of energy stress. Blocking purine biosynthesis prevents NADH accumulation-associated cell death in vitro and tissue injury in vivo. These results underscore the pathophysiological role of deregulated purine biosynthesis in NADH accumulation-associated disorders and demonstrate the utility of Ec STH in manipulating NADH/NAD + and NADPH/NADP + .

Topics & Concepts

Identification (biology)PurineBiosynthesisComputational biologyMetabolomicsChemistryBiochemistryBiologyCell biologyBioinformaticsEnzymeEcologyBiochemical and Molecular ResearchMitochondrial Function and PathologyBiochemical Acid Research Studies
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