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Cell culture-based profiling across mammals reveals DNA repair and metabolism as determinants of species longevity

by Tsai, Yi-Miau , Gladyshev, Vadim N , Burant, Charles F , Seluanov, Andrei , Zhang, Quanwei , Ma, Siming , Galecki, Andrzej , Raskind, Sasha , Miller, Richard A , Upneja, Akhil , Zhang, Zhengdong D , Clish, Clary B , Gorbunova, Vera

in aging / Amino acids / Animals / Antibiotics / Birds / Cell Biology / Cell culture / Cell Culture Techniques / Cells, Cultured / Deoxyribonucleic acid / DNA / DNA fingerprinting / DNA Repair / Drug dosages / Energy Metabolism / Fibroblasts / Fibroblasts - physiology / Gene expression / Gene Expression Profiling / Genetic aspects / Genetic engineering / Genomics and Evolutionary Biology / Glucose / Glucose metabolism / Insulin-like growth factors / Life span / lifespan / Longevity / Lysophosphatidylcholine / Mammals / Medical schools / Metabolism / metabolite profiling / Metabolites / Metabolomics / Methods / Mitochondrial DNA / Myotis lucifugus / Physiological aspects / Physiological research / Protein transport / Protein turnover / Proteolysis / Ribonucleic acid / RNA / Skin / Species

2016

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Cell culture-based profiling across mammals reveals DNA repair and metabolism as determinants of species longevity

2016

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Cell culture-based profiling across mammals reveals DNA repair and metabolism as determinants of species longevity

2016

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Journal Article

Cell culture-based profiling across mammals reveals DNA repair and metabolism as determinants of species longevity

Tsai, Yi-Miau,

Gladyshev, Vadim N,

Burant, Charles F,

Seluanov, Andrei,

Zhang, Quanwei,

Ma, Siming,

Galecki, Andrzej,

Raskind, Sasha,

Miller, Richard A,

Upneja, Akhil,

Zhang, Zhengdong D,

Clish, Clary B,

Gorbunova, Vera

2016

Overview

Mammalian lifespan differs by >100 fold, but the mechanisms associated with such longevity differences are not understood. Here, we conducted a study on primary skin fibroblasts isolated from 16 species of mammals and maintained under identical cell culture conditions. We developed a pipeline for obtaining species-specific ortholog sequences, profiled gene expression by RNA-seq and small molecules by metabolite profiling, and identified genes and metabolites correlating with species longevity. Cells from longer lived species up-regulated genes involved in DNA repair and glucose metabolism, down-regulated proteolysis and protein transport, and showed high levels of amino acids but low levels of lysophosphatidylcholine and lysophosphatidylethanolamine. The amino acid patterns were recapitulated by further analyses of primate and bird fibroblasts. The study suggests that fibroblast profiling captures differences in longevity across mammals at the level of global gene expression and metabolite levels and reveals pathways that define these differences.

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Publisher

eLife Science Publications, Ltd,eLife Sciences Publications Ltd,eLife Sciences Publications, Ltd

Subject

/ Animals

/ Birds