In-vitro studies in mouse oocytes have shown that the C-29 endogenously occurring sterol FF-MAS (follicular fluid meiosis-activating sterol) is a potent inducer of meiotic maturation leading to increased fertilization rates. We have used synthetic FF-MAS to induce meiotic maturation in immature human oocytes aspirated from polycystic ovarian syndrome patients. The patients were asked to give written consent to donate half of their aspirated oocytes to investigate the influence of culture conditions on maturation kinetics. The oocytes were aspirated from follicles 8-12 mm in diameter under ultrasound guidance after initial treatment with a gonadotrophin-releasing hormone agonist and s.c. injections of recombinant FSH for 3 days. The other half of the oocytes remained outside this present study. They were reserved for the patients' benefit and were fertilized with appropriate embryo stages being transferred. Fertilization and transfer were not attempted for the study oocytes. Synthetic sterol FF-MAS was added to the culture media at a concentration of 20 micromol/l and nuclear maturation was compared to a control group of oocytes cultured in media only supplemented with vehicle (TCM-199 supplemented with 0.2% ethanol v/v); thus no additional hormones, growth factors, serum or follicle fluid were added. In 31 cycles, oocytes were randomly allocated to one of seven treatment groups: fixed immediately upon aspiration (0 h group) or after in-vitro maturation culture in the presence or absence of FF-MAS for 22, 30 or 40 h respectively. A total of 81 oocytes were processed for light microscopy. The optimal timing of maturation was observed following 30 h of in-vitro culture, when 67% of FF-MAS-treated oocytes had completed nuclear maturation to the metaphase-II stage compared to 29% in the control group. The maturation time of 30 h appeared significantly superior to both 22 and 40 h, but only in the presence of FF-MAS. Cumulus expansion was most profound in the FF-MAS group after 30 h whereas all oocytes had shed the cumulus investment after 40 h. Our observations indicate that FF-MAS positively influences the absolute frequency and the kinetics of human oocytes undergoing nuclear maturation.
Intracytoplasmic sperm injection (ICSI) was performed on equine oocytes matured in vitro. The oocytes were aspirated from abattoir ovaries and matured in vitro for 36 h at 38 degrees C. ICSI was performed using frozen/thawed stallion semen after swimup in medium containing human serum albumin. Sperm-injected oocytes were either 1) cultured in vitro for 10, 20, or 72 h; 2) transferred to oviducts of pseudopregnant mice; or 3) transferred to a synchronized mare after initial in vitro culture. The transferred ova were recovered after 72 h, and all ova were subsequently fixed, stained, and processed for light and transmission electron microscopy. Single pronucleus formation was observed in 2 out of 12 presumptive zygotes 10 h postinjection, at which time abundant cortical granules were observed in the subplasmalemmal region. Twenty hours postinjection, however, 2 pronuclei were observed in 6 of 12 injected oocytes (fertilization rate 50%), and almost all cortical granules were released. The cleavage rate in vitro was 16% after 72 h in culture, and the most advanced embryo stages obtained were 6- to 8-cell embryos. The cleavage rate in vivo was very low since only 1 of 10 recovered had cleaved to the 2-cell stage. Thus, in conclusion, ICSI fertilization of equine oocytes did result in fertilization, pronucleus formation, and cortical granule release. However, the observed fertilization rate and oocyte activation was not paralleled by substantial cleavage of the zygotes.
A rapid increase in FF-MAS level occurred in vivo in the rabbit ovary in response to LH, and clear differences were seen in the cAMP pattern during spontaneous and induced oocyte maturation in mice.
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