Alteration of energy metabolism gene expression in cumulus cells affects oocyte maturation via MOS–mitogen-activated protein kinase pathway in dairy cows with an unfavorable “Fertil−” haplotype of one female fertility quantitative trait locus

Abstract Prim'Holstein heifers selected for the “Fertil−” homozygous haplotype of QTL-Female-Fert ility-BTA3 showed a greater rate of early pregnancy failure and slower embryo development after IVM suggesting lower oocyte quality than those selected for “Fertile+”. We aimed to ascertain intrafollicular factors related to lower oocyte quality in “Fertil−” cows. Analysis of individual oocytes showed meiotic progression delay in “Fertil−” compared with “Fertil+” dairy cows after in vivo maturation and IVM (P In vivo , a significant decrease in prostaglandin synthase PTGES1 and PTGS2 expression coupled with lower PTGS2 protein abundance in CC and reduced expression of MOS in enclosed metaphase-II oocytes from “Fertil−” cows was observed. IVM strongly deregulated gene expression in CC and in oocytes compared with in vivo ; nevertheless, differential expression of several genes including PEX19 , NAMPT and MOS was observed between the two haplotypes. During IVM, PTGS2 activity inhibitor NS398 (50 μM) led to lower expression of fatty acid synthase ( FASN ) in CC and of MOS in treated metaphase-II oocytes. Using immunofluorescence, MOS protein was localized to a midbody-like contractile ring separating the polar body from the ooplasm, suggesting a role in the terminal stage of oocyte maturation. Our results suggest that factors involved in prostaglandin synthesis and lipid metabolism in CC could impair oocyte maturation, and might be involved in the reduced fertility of “Fertil−” cows.