Developmental capacity of mouse oocytes following maintenance of meiotic arrest in vitro

Abstract

It was shown previously that the frequencies of fertilization and pre- and post-implantation embryonic development of mouse oocytes matured in vitro were similar to those of oocytes matured in vivo (Schroeder and Eppig, Dev Biol 102:493–497, 1984). The present study determined the developmental capacity of mouse oocytes after they had been maintained in meiotic arrest in vitro by substances thought to be important regulators of meiosis in vivo. Oocytes were maintained in meiotic arrest for 12 or 24 h in medium containing maturation inhibitor(s), washed free of inhibitor, and cultured 16 h in inhibitor-free (control) medium to permit meiotic maturation. Four different medium supplements were used to maintain meiotic arrest: (1) 100 μM dibutyryl cAMP plus 1 mM hypoxanthine; (2) 4 mM hypoxanthine plus 0.75 mM adenosine (H + AR); (3) 300 μM dibutyryl cAMP; and (4) 50 μM IBMX. Parallel groups of oocytes were treated to the same experimental protocol except that no inhibitory compounds were used; eg, oocytes were cultured a total of 28 or 40 h in control medium that permitted the resumption of maturation. These latter groups tested the effect of extended culture of mature oocytes on subsequent development. Control oocytes were cultured 16 h in control medium. Oocytes were inseminated and subsequently assessed for development to two-cell and blastocyst stages. When oocytes were first cultured 12 or 24 h in medium that maintained meiotic arrest, development to two-cells in all groups but one were within 10% of controls (70%). The 24 h H + AR group was the one exception (47% two-cells). By contrast, culturing oocytes for 28 or 40 h in inhibitor-free medium resulted in a precipitous decrease in development to two cells (27% and 7%, respectively). Blastocyst development followed the same pattern. When uridine (U) was added to H + AR medium, development to two cells was increased significantly. Also, the addition of FSH to the maturation medium significantly increased both two-cell and blastocyst development in the H + AR and H + AR + U groups. Transfer of compacted morulae from the H + AR + U/FSH group into pseudopregnant hosts produced live young 19 days postinsemination. These data demonstrate that prolonged culture of oocytes matured in vitro decreased their capacity to undergo normal development following insemination, but if oocytes were maintained in meiotic arrest during prolonged culture and then allowed to mature spontaneously, their developmental potential was significantly preserved. These results also lend support for a physiological role of cAMP and purines in the maintenance of meiotic arrest in vivo.