Multiomics assessment of dietary protein titration reveals altered hepatic glucose utilization
Copyright policy )Multiomics assessment of dietary protein titration reveals altered hepatic glucose utilization
Dietary protein restriction (PR) has rapid effects on metabolism including improved glucose and lipid homeostasis, via multiple mechanisms. Here, we investigate responses of fecal microbiome, hepatic transcriptome, and hepatic metabolome to six diets with protein from 18% to 0% of energy in mice. PR alters fecal microbial composition, but metabolic effects are not transferable via fecal transplantation. Hepatic transcriptome and metabolome are significantly altered in diets with lower than 10% energy from protein. Changes upon PR correlate with calorie restriction but with a larger magnitude and specific changes in amino acid (AA) metabolism. PR increases steady-state aspartate, serine, and glutamate and decreases glucose and gluconeogenic intermediates. 13C6 glucose and glycerol tracing reveal increased fractional enrichment in aspartate, serine, and glutamate. Changes remain intact in hepatic ATF4 knockout mice. Together, this demonstrates an ATF4-independent shift in gluconeogenic substrate utilization toward specific AAs, with compensation from glycerol to promote a protein-sparing response.
Cell Reports, 40 (7)
ISSN:2666-3864
ISSN:2211-1247
- Harvard University United States
- ETH Zurich Switzerland
- HARVARD SCHOOL OF PUBLIC HEALTH
- ETH-Zurich Switzerland
- Massachusetts Institute of Technology United States
Glycerol, Aspartic Acid, Gluconeogenesis, Glutamic Acid, Animals; Aspartic Acid/metabolism; Dietary Proteins/metabolism; Gluconeogenesis; Glucose/metabolism; Glutamic Acid/metabolism; Glycerol/metabolism; Liver/metabolism; Mice; Serine/metabolism; ATF4; CP: Metabolism; RNA seq; amino acids; calorie restriction; dietary restriction; gluconeogenesis; metabolic health; protein restriction; serine; stable isotope tracing, Mice, Glucose, Liver, Serine, Animals, Dietary Proteins
Glycerol, Aspartic Acid, Gluconeogenesis, Glutamic Acid, Animals; Aspartic Acid/metabolism; Dietary Proteins/metabolism; Gluconeogenesis; Glucose/metabolism; Glutamic Acid/metabolism; Glycerol/metabolism; Liver/metabolism; Mice; Serine/metabolism; ATF4; CP: Metabolism; RNA seq; amino acids; calorie restriction; dietary restriction; gluconeogenesis; metabolic health; protein restriction; serine; stable isotope tracing, Mice, Glucose, Liver, Serine, Animals, Dietary Proteins
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