Sex Differences in Dietary-Induced Liver Steatosis and Insulin Receptor-Related Signaling in Aged Mice Lacking Serotonin Transporter
Raymond Cespuglio, Konstantin Zabegalov, Johannes P. M. de Munter, Anna Gorlova, Kirill Chaprov, Daria Rogacheva, Sholpan Askarova, Angelika Schmitt-Böhrer, Aleksei Deykin, Klaus-Peter Lesch, Tatyana Strekalova

TL;DR
This study explores how male and female mice lacking a serotonin transporter respond differently to a high-calorie diet in terms of liver fat and insulin signaling as they age.
Contribution
The study reveals sex-specific molecular differences in insulin receptor signaling in aged SERT-KO mice under dietary stress.
Findings
Both male and female SERT-KO mice showed increased fat accumulation and impaired glucose and insulin tolerance on a Western diet.
Male and female SERT-KO mice exhibited distinct gene expression patterns of insulin receptor-related factors.
Sex differences in gene expression were observed even when metabolic outcomes were similar.
Abstract
Sex differences remain largely underexplored in metabolic disorders, particularly in the context of genetic predisposition to type 2 diabetes, the impact of aging, and environmental factors such as exposure to high-caloric diets. Previous studies using serotonin transporter (SERT)-knockout (SERT-KO) mice, which recapitulate metabolic conditions related to the lowered function of this transporter in humans, revealed an aggravated negative response of these mutants to housing on a high-fat/sugar ‘Western diet’ (WD). However, the role of sex in SERT-KO mice has not yet been studied. Available human and animal data suggest the differential regulation of insulin receptor-mediated signaling in males and females, which can be altered with aging. This study aimed to compare fat accumulation, blood biochemical changes, glucose tolerance, and insulin receptor (IR)-related signaling in the liver…
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Taxonomy
TopicsNeurotransmitter Receptor Influence on Behavior · Regulation of Appetite and Obesity · Peroxisome Proliferator-Activated Receptors
