Developmental capacity of mouse oocytes cryopreserved before and after maturation in vitro

Abstract

The survival and developmental capacity of cumulus cell-enclosed oocytes frozen (1) at the germinal vesicle (GV) stage, after maturation in vitro with (2) and without (3) FSH, and (4) after gonadotrophin-stimulated ovulation were assessed. Survival, defined as the number of morphologically normal oocytes, after freeze-thaw at the GV stage (69%), was lower than for oocytes frozen after ovulation (84%), and after maturation in vitro with FSH (88%) and without FSH (81%). Treatment with DMSO without freezing had no effect on survival when compared with untreated controls except in immature GV-stage oocytes for which there was a slight reduction. After insemination in vitro, 9% of frozen-thawed GV-stage oocytes cleaved to two equal blastomeres, but none developed to blastocysts. Of oocytes matured in vitro before freezing, 17% cleaved to the 2-cell stage and 18% of these developed to blastocysts. When oocytes were matured in vitro in the presence of FSH, however, the percentage cleaving to the 2-cell stage after freeze-thaw was improved to 55%, and 77% of 2-cell stage embryos developed to blastocysts. When ovulated cumulus cell-enclosed oocytes were frozen, 88% cleaved and 67% of the cleaved embryos developed to blastocysts. When 158 two-cell embryos resulting from oocytes matured in vitro with FSH were transferred to the oviducts of pseudopregnant foster mothers, 41 genetically marked live young were produced (26%). These results demonstrate (1) that ova frozen after ovulation undergo normal preimplantation development with frequencies at or near those for unfrozen control oocytes, (2) FSH treatment oocytes maturing in vitro greatly improves the capacity to cleave and develop to blastocysts after freeze-thaw and (3) oocytes frozen at the GV stage survive cryopreservation and undergo maturation in vitro but their developmental ability is severely impaired.