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RESEARCH ARTICLE
Contents Vol 27(6)

Antioxidant supplementation during in vitro culture improves mitochondrial function and development of embryos from aged female mice

Elena Silva A C , Alison F. Greene A , Kevin Strauss A , Jason R. Herrick A , William B. Schoolcraft B and Rebecca L. Krisher A
+ Author Affiliations
- Author Affiliations

A National Foundation for Fertility Research, 10290 RidgeGate Cr., Lone Tree, CO 80124, USA.

B Colorado Center for Reproductive Medicine, 10290 RidgeGate Cr., Lone Tree, CO 80124, USA.

C Corresponding author. Email: esilva@fertilityresearch.org

Reproduction, Fertility and Development 27(6) 975-983 https://doi.org/10.1071/RD14474
Submitted: 28 November 2014  Accepted: 20 January 2015   Published: 5 March 2015

Abstract

Maternal aging results in reduced oocyte and blastocyst quality, thought to be due, in part, to mitochondrial dysfunction and accumulation of reactive oxygen species. To reduce oxidative stress, the antioxidants α-lipoic acid (ALA; 10 µM), α-tocopherol (250 µM), hypotaurine (1 mM) and N-acetylcysteine (NAC; 1 mM), and sirtuin (100 ng mL–1) were added to embryo culture medium (AntiOX) and compared with a control (CON) without antioxidants to assess blastocyst development after in vitro maturation and fertilisation of oocytes from aged B6D2F1 female mice (13.5 months). Development to the blastocyst stage increased in the AntiOX compared with CON group (87.6% vs 72.7%, respectively; P < 0.01), in addition to higher mitochondrial membrane potential and ATP levels in the AntiOX group. Expression of genes associated with oxidative stress (PI3K, FOXO3A and GLRX2) was upregulated in the CON compared with AntiOX group. In addition to AntiOX, a medium containing only NAC and ALA (rAntiOX) was used to culture embryos from young CF1 females (6–8 weeks). More blastocysts developed in the rAntiOX compared with CON group (64.1% vs 43.3%, respectively; P < 0.01), although AntiOX (48.0% blastocysts) did not result in improved development in young mice. Antioxidants improved mitochondrial activity, gene expression and development in embryos of older female mice, whereas a reduced level of antioxidants during culture was beneficial to embryos from young mice.

Additional keywords: culture medium, oocyte, oxidative stress.


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