Abstract

Reduced function of the serotonin transporter (SERT) is associated with increased susceptibility to anxiety and depression and with type-2 diabetes, which is especially true in older women. Preference for a “Western diet” (WD), enriched with saturated fat, cholesterol, and sugars, may aggravate these conditions. In previous studies, decreased glucose tolerance, central and peripheral inflammation, dyslipidemia, emotional, cognitive, and social abnormalities were reported in WD-fed young female mice. We investigated the metabolic, molecular, and behavioral changes associated with a 3-week-long dietary regime of either the WD or control diet in 12-month-old female mice with three different Sert genotypes: homozygous (Slc6a4) gene knockout (Sert−/−: KO), heterozygous (Sert+/−: HET), or wild-type mice (Sert+/+: WT). In the WT-WD and KO-WD groups, but not in HET-WD-fed mice, most of changes induced by the WD paralleled those found in the younger mice, including brain overexpression of inflammatory marker Toll-like receptor 4 (Tlr4) and impaired hippocampus-dependent performance in the marble test. However, the 12-month-old female mice became obese. Control diet KO mice exhibited impaired hippocampal-dependent behaviors, increased brain expression of the serotonin receptors Htr2c and Htr1b, as well as increased Tlr4 and mitochondrial regulator, peroxisome proliferator-activated receptor gamma-coactivator-1a (Ppargc1a). Paradoxically, these, and other changes, were reversed in KO-WD mutants, suggesting a complex interplay between Sert deficiency and metabolic factors as well as potential compensatory molecular mechanisms that might be disrupted by the WD exposure. Most, but not all, of the changes in gene expression in the brain and liver of KO mice were not exhibited by the HET mice fed with either diet. Some of the WD-induced changes were similar in the KO-WD and HET-WD-fed mice, but the latter displayed a “rescued” phenotype in terms of diet-induced abnormalities in glucose tolerance, neuroinflammation, and hippocampus-dependent performance. Thus, complete versus partial Sert inactivation in aged mice results in distinct metabolic, molecular, and behavioral consequences in response to the WD. Our findings show that Sert+/− mice are resilient to certain environmental challenges and support the concept of heterosis as evolutionary adaptive mechanism.

Highlights

  • Serotonin transporter (SERT), a key element of serotonergic neurotransmission (Collier et al, 1996; Murphy et al, 2004), is involved in the regulation of metabolic processes (Stuart and Baune, 2012; Giannaccini et al, 2013; Pomytkin et al, 2015, 2018)

  • A variant of the upstream regulatory region of the SERT (SLC6A4) gene, the so-called short (s) allele, in comparison with long (l) allele is associated with lower SERT activity and stressed-related vulnerability to anxiety and depression (Lesch et al, 1996; Greenberg et al, 2000; Caspi et al, 2010), and with higher body mass index (BMI) (Sookoian et al, 2007; Fuemmeler et al, 2008) and incidence of type-2 diabetes (Iordanidou et al, 2010), which are typical for the female sex and aging (Kautzky-Willer et al, 2016; Khabazkhoob et al, 2017; Batsis and Zagaria, 2018)

  • Sert-deficient mice (Sert−/−: KO) were reported to display decreased glucose tolerance, increased deposition of white adipose tissue that increases with aging, and late-onset obesity; these changes were marked in females (Murphy and Lesch, 2008; Üçeyler et al, 2010; Chen et al, 2012; Zha et al, 2017)

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Summary

Introduction

Serotonin transporter (SERT), a key element of serotonergic neurotransmission (Collier et al, 1996; Murphy et al, 2004), is involved in the regulation of metabolic processes (Stuart and Baune, 2012; Giannaccini et al, 2013; Pomytkin et al, 2015, 2018). Individuals with metabolic syndrome and obesity display decreased SERT expression in the brain and periphery (Giannaccini et al, 2013; Nam et al, 2018). Sert-deficient mice (Sert−/−: KO) were reported to display decreased glucose tolerance, increased deposition of white adipose tissue that increases with aging, and late-onset obesity; these changes were marked in females (Murphy and Lesch, 2008; Üçeyler et al, 2010; Chen et al, 2012; Zha et al, 2017)

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