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Vertebrate reproductive science and technology
RESEARCH ARTICLE

341 OXYGEN TENSION AND EGF AFFECT METABOLISM OF IN VITRO-MATURED CUMULUS-ENCLOSED MOUSE OOCYTES

K. A. Preis A B , G. E. Seidel Jr B and D. K. Gardner A B
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- Author Affiliations

A Colorado Center for Reproductive Medicine, Englewood, CO 80110, USA

B Animal Reproduction and Biotechnology Laboratory, Colorado State University, Fort Collins, CO 80521, USA

Reproduction, Fertility and Development 18(2) 278-278 https://doi.org/10.1071/RDv18n2Ab341
Published: 14 December 2005

Abstract

In vitro maturation of immature oocytes results in limited success in both clinical and research laboratories. Although reduced oxygen concentration is beneficial to embryo development, the optimal concentration for oocyte maturation has yet to be determined. The objective of this study was to determine whether oxygen tension (20% or 5% O2) affects oocyte physiology. Additionally, the effect of epidermal growth factor (EGF) in maturation medium on oocyte metabolic activity and subsequent embryo development was determined. Cumulus–oocyte complexes (COCs; n = 231) were collected from 28-day-old unprimed F1 (C57BL/6 × CBA/ca) mice. COCs were individually matured in defined medium at 37°C in 6% CO2 in one of four groups (Table 1). For the metabolism study, COCs were further divided into two groups: individual maturation in a 2-µL drop of medium for 16 h (n = 131); or individual maturation in 5-μL for 12 h and then placed in a 0.5-μL drop of medium for 4 h (n = 100), the time of greatest metabolic activity of the COC. At 17 h of maturation, COCs were individually fertilized, and zygotes were individually cultured until 96 h, at which time blastocyst development was assessed. Metabolic profiles were analyzed by ANOVA, and blastocyst rates were analyzed by Fisher's exact test. Maturation rates and blastocyst development were not different between groups. However, at 12–16 h of maturation, metabolism of COCs was affected by both oxygen tension and EGF (Table 1). Concerning metabolism over the entire course of maturation, glucose uptake and lactate production were higher in COCs in 5% O2 + 100 ng EGF (P < 0.05) than in the remaining three groups. There was no difference between 5% O2 and 20% O2 + 100 ng EGF, but 20% O2 caused less glucose uptake and lactate production than did the other three treatment groups (P < 0.05). Results of this study are the first to show that oxygen tension alters COC metabolism: COCs matured under 5% O2 were more active metabolically than COCs matured under 20% O2. The effect of oxygen tension is to some extent moderated by the presence of EGF, as metabolic activity of COCs matured under 20% O2 + 100 ng EGF was closer to that of COCs matured under 5% O2 conditions. Although blastocyst rates were similar across the four groups, embryos derived from oocytes matured in different oxygen tensions may exhibit different developmental potential. In conclusion, results of this study have implications for the improvement of maturation conditions in both clinical and research laboratories.


Table 1. Carbohydrate metabolism of individual COCs at 12–16 h of maturation
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