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W3137615889 startingPage "672" @default.
W3137615889 abstract "Human neurodegenerative proteinopathies are disorders associated with abnormal protein depositions in brain neurons. They include polyglutamine (polyQ) conditions such as Huntington's disease (HD) and α-synucleinopathies such as Parkinson's disease (PD). Overexpression of NMNAT/Nma1, an enzyme in the NAD+ biosynthetic salvage pathway, acts as an efficient suppressor of proteotoxicities in yeast, fly and mouse models. Screens in yeast models of HD and PD allowed us to identify three additional enzymes of the same pathway that achieve similar protection against proteotoxic stress: Npt1, Pnc1 and Qns1. The mechanism by which these proteins maintain proteostasis has not been identified. Here, we report that their ability to maintain proteostasis in yeast models of HD and PD is independent of their catalytic activity and does not require cellular protein quality control systems such as the proteasome or autophagy. Furthermore, we show that, under proteotoxic stress, the four proteins are recruited as molecular chaperones with holdase and foldase activities. The NAD+ salvage proteins act by preventing misfolding and, together with the Hsp90 chaperone, promoting the refolding of extended polyQ domains and α-synuclein (α-Syn). Our results illustrate the existence of an evolutionarily conserved strategy of repurposing or moonlighting housekeeping enzymes under stress conditions to maintain proteostasis. We conclude that the entire salvage NAD+ biosynthetic pathway links NAD+ metabolism and proteostasis and emerges as a target for therapeutics to combat age-associated neurodegenerative proteotoxicities." @default.
W3137615889 created "2021-03-29" @default.
W3137615889 creator A5017767544 @default.
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W3137615889 creator A5061254553 @default.
W3137615889 creator A5070779554 @default.
W3137615889 creator A5090876391 @default.
W3137615889 date "2021-03-22" @default.
W3137615889 modified "2023-10-15" @default.
W3137615889 title "Salvage NAD+ biosynthetic pathway enzymes moonlight as molecular chaperones to protect against proteotoxicity" @default.
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W3137615889 doi "https://doi.org/10.1093/hmg/ddab080" @default.
W3137615889 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/33749726" @default.
W3137615889 hasPublicationYear "2021" @default.
W3137615889 type Work @default.
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