Cumulus contributions during bovine fertilization in vitro

A mandatory step in performing micromanipulation techniques, studying sperm-oocyte interactions and evaluating morphological aspects of oocyte quality is the removal of cumulus cells from oocytes or zygotes at various stages. In cattle, cumulus removal shortly before fertilization in vitro strongly decreases sperm penetration rates. This study was conducted to evaluate the function of the cumulus oophorus during bovine fertilization in vitro. The importance of cumulus secretions during IVF was investigated by inseminating cumulus-denuded oocytes (CDOs) in fertilization medium supplemented with individual cumulus secretions, such as progesterone or hyaluronic acid. None of these substances increased the fertilization rate of CDOs. However, fertilizing CDOs in cumulus-conditioned medium or on a cumulus monolayer partially restored the reduction in fertilization rate (P<0.05). The fertilization rate of CDOs inseminated on a cumulus monolayer further increased when physical contact between the gametes and the monolayer was prevented by fertilizing them inside a culture plate insert placed on the monolayer (P<0.05). Finally, the importance of reactive oxygen species (ROS) generation and O(2) concentration during IVF was studied. Luminol-dependent chemiluminescence revealed a higher ROS load in conditioned medium of cumulus-enclosed oocytes (CEOs) than in that of CDOs after sperm-oocyte co-incubation (P<0.05). Furthermore, lowering the external O(2) concentration from 20 to 5% decreased the fertilization rate of both CEOs and CDOs, but had a higher impact on CEOs (P<0.05). In conclusion, this study provides evidence that the cumulus oophorus benefits the fertilizing ability of penetrating spermatozoa by creating a complex microenvironment of both cumulus secretions and metabolic products around the oocyte. Gap junctional communication between the oocyte and corona cells as well as sperm trapping by the cumulus oophorus seem to be essential factors in supporting fertilization.