Login

Gene-by-environment modulation of lifespan and weight gain in the murine BXD family

Gain of function Weight change
DOI: 10.1038/s42255-021-00449-w Publication Date: 2021-09-27T08:11:07Z
Abstract Supplemental Material References Cited by
AUTHORS (28)
Suheeta Roy
Maroun Bou Sleiman
Pooja Jha
Jesse F. Ingels
Casey J. Chapman
Melinda S. McCarty
Jesse D. Ziebarth
Michael Hook
Anna Sun
Wenyuan Zhao
Jinsong Huang
Sarah M. Neuner
Lynda A. Wilmott
Thomas M. Shapaker
Arthur G. Centeno
David G. Ashbrook
Megan K. Mulligan
Catherine C. Kacz...
Liza Makowski
Yan Cui
Robert W. Read
Richard A. Miller
Khyobeni Mozhui
Evan G. Williams
Saunak Sen
Lu Lu
Johan Auwerx
Robert W. Williams
ABSTRACT
How lifespan and body weight vary as a function of diet and genetic differences is not well understood. Here we quantify the impact of differences in diet on lifespan in a genetically diverse family of female mice, split into matched isogenic cohorts fed a low-fat chow diet (CD, n = 663) or a high-fat diet (HFD, n = 685). We further generate key metabolic data in a parallel cohort euthanized at four time points. HFD feeding shortens lifespan by 12%: equivalent to a decade in humans. Initial body weight and early weight gains account for longevity differences of roughly 4-6 days per gram. At 500 days, animals on a HFD typically gain four times as much weight as control, but variation in weight gain does not correlate with lifespan. Classic serum metabolites, often regarded as health biomarkers, are not necessarily strong predictors of longevity. Our data indicate that responses to a HFD are substantially modulated by gene-by-environment interactions, highlighting the importance of genetic variation in making accurate individualized dietary recommendations.
SUPPLEMENTAL MATERIAL
Coming soon ....
REFERENCES (94)
CITATIONS (39)
EXTERNAL LINKS
OPENAIRE - Products  OPENALEX - Publications  CROSSREF - Publications 
PlumX Metrics
RECOMMENDATIONS
FAIR ASSESSMENT
Coming soon ....
JUPYTER LAB
Coming soon ....