Meiotic competence of mouse oocytes reconstructed by replacing the germinal vesicle with a male pronucleus and somatic nucleus

The present study examines the contribution of the nucleus to meiotic competence in mouse oocytes that were reconstructed using nuclear transfer. Three types of reconstructed oocytes were produced: MP‐GV, by transplanting the male pronucleus (MP) into germinal vesicle (GV) stage oocytes; 3T3‐GV, by transplanting the nucleus of a National Institute of Health (NIH) 3T3 cell into a GV stage oocyte; and 3T3‐MII, by transplanting the nucleus of an NIH 3T3 cell into a metaphase II (MII) stage oocyte. The fusion rates differed, but not significantly, in the MP‐GV, 3T3‐GV, and 3T3‐MII groups (77, 63, 56%, respectively). Then, meiotic competence was compared in MP‐GV, 3T3‐GV and non‐manipulated GV stage oocytes as a control. Nuclear envelope breakdown occurred in all the reconstructed oocytes, as well as the control ones. The percentage of first polar body extrusion differed between the MP‐GV (100%), 3T3‐GV (72%), and control (67%) groups. DNA staining with Hoechst 33342 revealed that in the MP‐GV‐group oocytes that had reached MII stage, the chromosomes were condensed and aligned in a regular array similar to the normal metaphase plate. By contrast, in 3T3‐GV group oocytes, the condensed chromosomes were irregularly scattered in the cytoplasm. These results suggest that the donor nucleus affects meiotic competence in reconstructed oocytes.