Methionine restriction provides sex-specific protection against high-fat diet-induced adiposity, peripheral insulin resistance, and neuroinflammation in FGF21-dependent and independent manners in mice
Hannah Lail, Rowan Lawrence, Filipe Pinheiro, Emily Price, Desiree Wanders

TL;DR
Methionine restriction helps male mice resist weight gain and insulin issues from high-fat diets, with some effects depending on a protein called FGF21.
Contribution
The study reveals sex-specific and FGF21-dependent effects of methionine restriction on metabolic and neuroinflammatory outcomes in mice.
Findings
Methionine restriction reduced body weight and adiposity in male mice regardless of diet or FGF21 status.
FGF21 is essential for methionine restriction to improve insulin sensitivity and reduce neuroinflammation in males.
Female mice showed limited benefits from methionine restriction, especially in adiposity and insulin signaling.
Abstract
Excessive consumption of high-fat diets is linked to peripheral insulin resistance, neuroinflammation, and obesity. While dietary methionine restriction improves peripheral metabolic health, its effectiveness in attenuating central insulin resistance and neuroinflammation, especially in a sex-dependent manner, remains unclear. This study investigates whether methionine restriction can mitigate high-fat diet-induced alterations in insulin resistance and neuroinflammation in male and female mice and explores the role of endogenous fibroblast growth factor 21 (FGF21) in mediating these effects. We utilized wild-type and Fgf21 knockout (Fgf21-/-) mice to assess the impact of methionine restriction on body composition, insulin sensitivity, central insulin signaling, and neuroinflammation. methionine restriction reduced body weight and adiposity in males, regardless of diet or genotype. In…
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Taxonomy
TopicsFolate and B Vitamins Research · Fibroblast Growth Factor Research · Cancer Research and Treatments
