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Diet composition influences the metabolic benefits of short cycles of very low caloric intake

Medicine and Health

Diet composition influences the metabolic benefits of short cycles of very low caloric intake

A. Diaz-ruiz, T. Rhinesmith, et al.

This study reveals how very low-calorie intake cycles can enhance the metabolic health of middle-aged male mice, demonstrating significant benefits regardless of diet. Conducted by a team of researchers including Alberto Diaz-Ruiz and Valter D. Longo, the findings suggest diet composition plays a crucial role in unlocking the full metabolic advantages of these cycles.... show more
Abstract
Diet composition, calories, and fasting times contribute to the maintenance of health. However, the impact of very low-calorie intake (VLCI) achieved with either standard laboratory chow (SD) or a plant-based fasting mimicking diet (FMD) is not fully understood. Here, using middle-aged male mice we show that 5 months of short 4:10 VLCI cycles lead to decreases in both fat and lean mass, accompanied by improved physical performance and glucoregulation, and greater metabolic flexibility independent of diet composition. A long-lasting metabolomic reprograming in serum and liver is observed in mice on VLCI cycles with SD, but not FMD. Further, when challenged with an obesogenic diet, cycles of VLCI do not prevent diet-induced obesity nor do they elicit a long-lasting metabolic memory, despite achieving modest metabolic flexibility. Our results highlight the importance of diet composition in mediating the metabolic benefits of short cycles of VLCI.
Publisher
Nature Communications
Published On
Nov 09, 2021
Authors
Alberto Diaz-Ruiz, Tyler Rhinesmith, Laura C. D. Pomatto-Watson, Nathan L. Price, Farzin Eshaghi, Margaux R. Ehrlich, Jacqueline M. Moats, Melissa Carpenter, Annamaria Rudderow, Sebastian Brandhorst, Julie A. Mattison, Miguel A. Aon, Michel Bernier, Valter D. Longo, Rafael de Cabo
DOI
https://doi.org/10.1038/s41467-021-26654-5
Tags
very low-calorie intake
metabolic health
plant-based diet
obesity
diet composition
mice
metabolic flexibility

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