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W2792877870 abstract "Abstract The mechanisms underlying life span extension by sulfur amino acid restriction (SAAR) are unclear. Cysteine and methionine are essential for the biosynthesis of proteins and glutathione (GSH), a major redox buffer in the endoplasmic reticulum (ER). We hypothesized that SAAR alters protein synthesis by modulating the redox milieu. Male F344‐rats were fed control (CD: 0.86% methionine without cysteine) and SAAR diets (0.17% methionine without cysteine) for 12 weeks. Growth rates, food intake, cysteine and GSH levels, proteins associated with redox status and translation, and fractional protein synthesis rates (FSRs) were determined in liver. Despite a 40% higher food intake, growth rates for SAAR rats were 27% of those fed CD. Hepatic free cysteine in SAAR rats was 55% compared with CD rats. SAAR altered tissue distribution of GSH, as hepatic and erythrocytic levels were 56% and 196% of those in CD rats. Lower GSH levels did not induce ER stress (i.e., unchanged expression of Xbp1 s , Chop , and Grp78 ), but activated PERK and its substrates eIF2‐α and NRF2. SAAR‐induced changes in translation‐initiation machinery (higher p‐eIF2‐α and 4E‐BP1, and lower eIF4G‐1) resulted in slower protein synthesis rates (53% of CD). Proteins involved in the antioxidant response (NRF2, KEAP1, GCLM, and NQO1) and protein folding (PDI and ERO1‐α) were increased in SAAR. Lower FSR and efficient protein folding might be improving proteostasis in SAAR." @default.
W2792877870 created "2018-03-29" @default.
W2792877870 creator A5008059478 @default.
W2792877870 creator A5066966846 @default.
W2792877870 creator A5069452132 @default.
W2792877870 creator A5083176418 @default.
W2792877870 date "2018-01-29" @default.
W2792877870 modified "2023-10-09" @default.
W2792877870 title "Sulfur amino acid restriction–induced changes in redox‐sensitive proteins are associated with slow protein synthesis rates" @default.
W2792877870 cites W146779788 @default.
W2792877870 cites W1507082667 @default.
W2792877870 cites W1595268754 @default.
W2792877870 cites W1632132781 @default.
W2792877870 cites W1782287000 @default.
W2792877870 cites W1817033456 @default.
W2792877870 cites W1890354534 @default.
W2792877870 cites W1973856122 @default.
W2792877870 cites W1978571734 @default.
W2792877870 cites W1980739328 @default.
W2792877870 cites W1985118273 @default.
W2792877870 cites W1987616851 @default.
W2792877870 cites W2002741326 @default.
W2792877870 cites W2007064404 @default.
W2792877870 cites W2010243470 @default.
W2792877870 cites W2016562224 @default.
W2792877870 cites W2034108516 @default.
W2792877870 cites W2034542965 @default.
W2792877870 cites W2035692565 @default.
W2792877870 cites W2043037824 @default.
W2792877870 cites W2050994990 @default.
W2792877870 cites W2059586921 @default.
W2792877870 cites W2063234848 @default.
W2792877870 cites W2067659770 @default.
W2792877870 cites W2071002178 @default.
W2792877870 cites W2075922976 @default.
W2792877870 cites W2077165816 @default.
W2792877870 cites W2078434966 @default.
W2792877870 cites W2081592576 @default.
W2792877870 cites W2084097442 @default.
W2792877870 cites W2085100642 @default.
W2792877870 cites W2085289756 @default.
W2792877870 cites W2085514791 @default.
W2792877870 cites W2086691574 @default.
W2792877870 cites W2095864675 @default.
W2792877870 cites W2096543475 @default.
W2792877870 cites W2099249565 @default.
W2792877870 cites W2105320120 @default.
W2792877870 cites W2105750509 @default.
W2792877870 cites W2106296270 @default.
W2792877870 cites W2108165389 @default.
W2792877870 cites W2114787201 @default.
W2792877870 cites W2118519973 @default.
W2792877870 cites W2122694917 @default.
W2792877870 cites W2123415654 @default.
W2792877870 cites W2131651601 @default.
W2792877870 cites W2132094103 @default.
W2792877870 cites W2135924692 @default.
W2792877870 cites W2136385924 @default.
W2792877870 cites W2137587164 @default.
W2792877870 cites W2147646344 @default.
W2792877870 cites W2148473682 @default.
W2792877870 cites W2155098040 @default.
W2792877870 cites W2164783065 @default.
W2792877870 cites W2168713325 @default.
W2792877870 cites W2169490663 @default.
W2792877870 cites W2171209272 @default.
W2792877870 cites W2172114433 @default.
W2792877870 cites W2295050814 @default.
W2792877870 cites W2305447934 @default.
W2792877870 cites W2398718831 @default.
W2792877870 cites W2491404716 @default.
W2792877870 cites W2504825316 @default.
W2792877870 cites W2506191144 @default.
W2792877870 cites W2520601317 @default.
W2792877870 cites W2546666927 @default.
W2792877870 cites W2571494971 @default.
W2792877870 cites W2763795766 @default.
W2792877870 cites W4245957869 @default.
W2792877870 cites W4323254786 @default.
W2792877870 cites W77078000 @default.
W2792877870 doi "https://doi.org/10.1111/nyas.13556" @default.
W2792877870 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/29377163" @default.
W2792877870 hasPublicationYear "2018" @default.
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