Sex differences in lifespan extension with acarbose and 17-α estradiol: gonadal hormones underlie male-specific improvements in glucose tolerance and mTORC2 signaling.

Michael Garratt,Brian Bower,Richard A Miller,Gonzalo G Garcia

doi:10.1111/acel.12656

Michael Garratt, Brian Bower + Show 2 more

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https://doi.org/10.1111/acel.12656

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Journal: Aging cell	Publication Date: Aug 22, 2017
Citations: 81	License type: CC BY 4.0

Affiliation: University of Michigan–Ann Arbor

Abstract

SummaryInterventions that extend lifespan in mice can show substantial sexual dimorphism. Here, we show that male‐specific lifespan extension with two pharmacological treatments, acarbose (ACA) and 17‐α estradiol (17aE2), is associated, in males only, with increased insulin sensitivity and improved glucose tolerance. Females, which show either smaller (ACA) or no lifespan extension (17aE2), do not derive these metabolic benefits from drug treatment. We find that these male‐specific metabolic improvements are associated with enhanced hepatic mTORC2 signaling, increased Akt activity, and phosphorylation of FOXO1a – changes that might promote metabolic health and survival in males. By manipulating sex hormone levels through gonadectomy, we show that sex‐specific changes in these metabolic pathways are modulated, in opposite directions, by both male and female gonadal hormones: Castrated males show fewer metabolic responses to drug treatment than intact males, and only those that are also observed in intact females, while ovariectomized females show some responses similar to those seen in intact males. Our results demonstrate that sex‐specific metabolic benefits occur concordantly with sexual dimorphism in lifespan extension. These sex‐specific effects can be influenced by the presence of both male and female gonadal hormones, suggesting that gonadally derived hormones from both sexes may contribute to sexual dimorphism in responses to interventions that extend mouse lifespan.

Highlights

There is increasing recognition that lifespan-extending manipulations can have sexually dimorphic effects on survival
Several hormones involved in glucose control, which have previously been reported to show sex differences in circulating concentration, were influenced by ACA and/or 17aE2, but responses were similar in both sexes
There was no overall effect of ACA or 17aE2 on fasting insulin levels (Fig. 1D), nor was there a significant interaction between sex and drug treatment on fasting insulin levels for either ACA or 17aE2 compared to control (P > 0.1 in each case)

Summary

Introduction

There is increasing recognition that lifespan-extending manipulations can have sexually dimorphic effects on survival. Several different pharmacological treatments, including aspirin, nordihydroguaiaretic acid, acarbose (ACA), Protandim, and 17-a estradiol (17aE2), extend mouse lifespan to a greater degree in males (Harrison et al, 2014; Strong et al, 2016). The causes for this sexual dimorphism in lifespan extension are largely unknown (Austad & Bartke, 2015). Treatment of 16month-old male C57BL/6 mice with 17aE2 ameliorates metabolic and inflammatory dysfunction, suggesting that this steroid may have metabolic benefits (Stout et al, 2016), this report did not include treated females as a comparison group

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