Regular and Moderate Exercise Counteracts the Decline of Antioxidant Protection but Not Methylglyoxal-Dependent Glycative Burden in the Ovary of Reproductively Aging Mice.

V. Cordone,C. Tatone,M. Grannonico,F. Amicarelli,G. Di Emidio,S. Jr Santini,M. Cacchio,S. Falone

doi:10.1155/2016/3837623

Abstract

Population aging results in urgent needs of interventions aimed at ensuring healthy senescence. Exercise often results in healthy aging, yet many molecular mechanisms underlying such effects still need to be identified. We here investigated whether the age-dependent accumulation of oxidative and methylglyoxal- (MG-) related molecular damage could be delayed by moderate exercise in the mouse ovary, an organ that first exhibits impaired function with advancing age in mammals. CD1 female mice underwent two- or four-month treadmill-based running through the transition from adult to middle age, when ovaries show signs of senescence, and markers of protection against reactive oxygen species (ROS) and MG were measured. The long-term exercise reduced the protein oxidative damage in the ovaries (P < 0.01), and this was linked to the preservation of the glutathione peroxidase protection against ROS (P < 0.001), as well as to the increased glutathione availability (P < 0.001). Conversely, even though the age-related deactivation of the MG-targeting systems was partially prevented by the long-term running programme (P < 0.001), exercised mice were not protected from the age-dependent glycative burden. In summary, lately initiated regular and moderate exercise limited some changes occurring in the ovaries of middle-aged mice, and this might help to develop nonpharmacological cointerventions to reduce the vulnerability of mammalian ovaries towards redox dysfunctions.

Highlights

In modern advanced societies, population aging and life expectancy are constantly increasing, leading to major ageassociated health issues in both sexes
We found significant main effects of both age and exercise on the total glutathione peroxidase specific activity (P < 0.001, Cohen’s d-based effect sizes = 0.979 and 0.939, resp.)
The post hoc test revealed that the transition from 12 to 14 months of age caused a marked reduction of Total Glutathione Peroxidase (tGPX) specific activity in the ovarian environment of sedentary mice (P < 0.001, Cohen’s d-based effect size = 0.996, S4 versus S2), whereas the tGPX activity was significantly increased by both twoand four-month running (P < 0.001, Cohen’s d-based effect sizes = 0.890 and 0.963, resp.) (E2 versus S2 and E4 versus S4; Figure 2(a))

Summary

Introduction

Population aging and life expectancy are constantly increasing, leading to major ageassociated health issues in both sexes. Menopause indicates the absolute end of reproductive life. Ovarian aging is a major determinant of this agedependent decrease in female fertility and is related to a decrease in the size of the ovarian follicle pool and the quality of the oocytes therein [2], as well as to alterations of the ovarian stroma [3]. Female reproductive aging is associated with some disorders known to increase in mid-life including fetal aneuploidy, cognitive impairment, and cardiovascular disease [4]. How to maintain the reproductive health and improve the ovarian lifespan is currently considered as an area of great interest

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