Disrupted redox homeostasis and aberrant redox gene expression in porcine oocytes contribute to decreased developmental competence

Ye Yuan, Matthew B. Wheeler, Rebecca L. Krisher

Research output: Contribution to journalArticlepeer-review


The objective of this study was to identify specific redoxrelated genes whose function contributes to oocyte quality and to characterize the role of redox homeostasis in oocyte development. We determined the redox genes glutaredoxin 2(GLRX2), protein disulfide isomerase family A, members 4 and 6(PDIA4, PDIA6), and thioredoxin reductase 1 (TXNRD1) were differentially expressed between adult (more competent) and prepubertal (less competent) porcine in vitro-matured (IVM) oocytes. The association between these genes and oocyte quality was further validated by comparing transcript abundance in IVM with that in in vivo-matured (VVM) prepubertal and adult oocytes. By maturing oocytes in variable redox environments, we demonstrated that a balanced redox environment is important for oocyte quality, and over-reduction of the environment is as detrimental as excess oxidation. Critical levels of reactive oxygen species (ROS) and glutathione (GSH) are required for oocyte competence. Elevated GSH and lower ROS in prepubertal oocytes suggest disrupted redox homeostasis exists in these cells. By further comparing GLRX2, PDIA4, PDIA6, and TXNRD1 expression levels in oocytes matured under thesedifferent redox environments, we found aberrant expression patterns in prepubertal oocytes but not in adult oocytes whenthe maturation medium contained high concentrations of antioxidants. These results suggest that prepubertal oocytes are less competent in regulating redox balance than adult oocytes,contributing to lower oocyte quality. In conclusion, aberrant redox gene expression patterns and disrupted redox homeostasis contribute to decreaseddevelopmental competence in prepubertal and IVM porcine oocytes. The balance between ROS and GSH plays an important role in oocyte quality.

Original languageEnglish (US)
Article numberArticle 78
JournalBiology of reproduction
Issue number4
StatePublished - Oct 1 2012


  • Gene expression
  • In vitro maturation
  • IVM
  • Oocyte
  • Pig
  • Porcine
  • Redox homeostasis

ASJC Scopus subject areas

  • Cell Biology


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