Age-Associated Lipidome Changes in Metaphase II Mouse Oocytes.

Hyuck Jun Mok,Kwang Pyo Kim,Hyunjung Jade Lim,Jae Won Lee,Chang Suk Suh,Geun-Kyung Lee,Hyejin Shin,Michael Bader

doi:10.1371/journal.pone.0148577

Hyuck Jun Mok, Kwang Pyo Kim + Show 6 more

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https://doi.org/10.1371/journal.pone.0148577

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Abstract

The quality of mammalian oocytes declines with age, which negatively affects fertilization and developmental potential. The aging process often accompanies damages to macromolecules such as proteins, DNA, and lipids. To investigate if aged oocytes display an altered lipidome compared to young oocytes, we performed a global lipidomic analysis between oocytes from 4-week-old and 42 to 50-week-old mice. Increased oxidative stress is often considered as one of the main causes of cellular aging. Thus, we set up a group of 4-week-old oocytes treated with hydrogen peroxide (H2O2), a commonly used oxidative stressor, to compare if similar lipid species are altered between aged and oxidative-stressed oocytes. Between young and aged oocytes, we identified 26 decreased and 6 increased lipids in aged oocytes; and between young and H2O2-treated oocytes, we identified 35 decreased and 26 increased lipids in H2O2-treated oocytes. The decreased lipid species in these two comparisons were overlapped, whereas the increased lipid species were distinct. Multiple phospholipid classes, phosphatidic acid (PA), phosphatidylinositol (PI), phosphatidylserine (PS), and lysophosphatidylserine (LPS) significantly decreased both in H2O2-treated and aged oocytes, suggesting that the integrity of plasma membrane is similarly affected under these conditions. In contrast, a dramatic increase in diacylglycerol (DG) was only noted in H2O2-treated oocytes, indicating that the acute effect of H2O2-caused oxidative stress is distinct from aging-associated lipidome alteration. In H2O2-treated oocytes, the expression of lysophosphatidylcholine acyltransferase 1 increased along with increases in phosphatidylcholine. Overall, our data reveal that several classes of phospholipids are affected in aged oocytes, suggesting that the integrity of plasma membrane is associated with maintaining fertilization and developmental potential of mouse oocytes.

Highlights

In most mammals, the fertilization and developmental competence of embryos are related to reproductive aging
In addition to young and aged oocytes, we set up additional group of young oocytes treated with H2O2 to examine the effect of acute exogenous oxidative stress on lipidome
We applied BODIPY 500/510 and CellMask fluorescence staining in young, H2O2treated, and aged oocytes at Metaphase II (MII) stage to compare the status of the intracellular natural lipids and plasma membrane

Summary

Introduction

The fertilization and developmental competence of embryos are related to reproductive aging. Lipids exhibit tremendous structural variety with diverse head groups and fatty acid chains [5]. With this diversity in types and structures, lipids are widely involved in a wide variety of biological functions. Their major roles include serving as constituents of cellular membranes in the form of lipid bilayers [6], energy storage in the form of chemical energy [7], and as precursors of secondary messengers that can be activated after cellular stimulation [8,9,10,11]. It has been shown that phospholipids in the plasma membrane are vulnerable to oxidative stress [19,20,21]

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