Noninvasive chemical enucleation of mouse oocytes

Abstract

A noninvasive method of enucleating mouse oocytes has been developed and evaluated. Strong chromosome to chromosome binding was induced by culturing early metaphase I oocytes in etoposide supplemented medium. Subsequent expulsion of the entire chromosome complex during polar body extrusion was facilitated by exposing the etoposide treated oocytes to a combination of cycloheximide and etoposide during anaphase and telophase. This simple two-step chemical enucleation procedure yields fully enucleated mouse oocytes in 96% of cases. Chemically enucleated oocytes do not contain maturation promoting factor (MPF) at the end of etoposide-cycloheximide enucleation. MPF levels are, however, restored during subsequent incubation in drug-free medium and, after 15 h of post-enucleation culture, the cytoplasts regain their full capacity for parthenogenetic activation and nuclear remodelling. We believe that this novel enucleation technique will greatly facilitate the research in nuclear transplantation.