Roscovitine, a potent inhibitor of M‐phase Promoting Factor (MPF) kinase activity, was used to maintain cattle oocytes at the germinal vesicle stage for a 24‐hr culture period. A concentration of 25 μM of roscovitine was sufficient to reach the maximum level of meiotic resumption inhibition with 83 ± 6% of the oocytes remaining at the germinal vesicle stage after the 24 hr of culture. The histone H1 kinase activity was maintained at a basal level after culture under roscovitine inhibition at any of the concentrations tested (12.5, 25, 50, and 100 μM). This inhibitory effect of roscovitine was fully reversible since 89 ± 4% of the oocytes cultured for 24 hr in the presence of 25 μM of roscovitine reached the metaphase II stage after a further culture of 24 hr in permissive medium (TCM199 supplemented with 10 ng/ml EGF). The cleavage rate as well as the development to the blastocyst stage was not different for oocytes cultured for 24 hr under roscovitine (25 μM) inhibition and then matured for 24 hr in the presence of EGF as compared to oocytes not submitted to prematuration culture (82 ± 8% cleavage and 41 ± 4% blastocysts at 8 days post insemination for control oocytes compared to 90 ± 7% and 36 ± 7% respectively for roscovitine‐treated oocytes). Roscovitine meiotic inhibition was also effective in the presence of EGF, and the final developmental potential as well as the kinetics of blastocyst formation were not affected after such prematuration treatment. The EGF induced cumulus expansion was also inhibited by roscovitine. These results indicate for the first time the feasibility of culturing cattle oocytes under meiotic inhibition without decreasing their resulting developmental potential. Mol. Reprod. Dev. 55:89–95, 2000. © 2000 Wiley‐Liss, Inc.
Roscovitine, a potent inhibitor of M-phase Promoting Factor (MPF) kinase activity, was used to maintain cattle oocytes at the germinal vesicle stage for a 24-hr culture period. A concentration of 25 microM of roscovitine was sufficient to reach the maximum level of meiotic resumption inhibition with 83 +/- 6% of the oocytes remaining at the germinal vesicle stage after the 24 hr of culture. The histone H1 kinase activity was maintained at a basal level after culture under roscovitine inhibition at any of the concentrations tested (12.5, 25, 50, and 100 microM). This inhibitory effect of roscovitine was fully reversible since 89 +/- 4% of the oocytes cultured for 24 hr in the presence of 25 microM of roscovitine reached the metaphase II stage after a further culture of 24 hr in permissive medium (TCM199 supplemented with 10 ng/ml EGF). The cleavage rate as well as the development to the blastocyst stage was not different for oocytes cultured for 24 hr under roscovitine (25 microM) inhibition and then matured for 24 hr in the presence of EGF as compared to oocytes not submitted to prematuration culture (82 +/- 8% cleavage and 41 +/- 4% blastocysts at 8 days post insemination for control oocytes compared to 90 +/- 7% and 36 +/- 7% respectively for roscovitine-treated oocytes). Roscovitine meiotic inhibition was also effective in the presence of EGF, and the final developmental potential as well as the kinetics of blastocyst formation were not affected after such prematuration treatment. The EGF induced cumulus expansion was also inhibited by roscovitine. These results indicate for the first time the feasibility of culturing cattle oocytes under meiotic inhibition without decreasing their resulting developmental potential.
The aims of this study were to assess the effectiveness of roscovitine, a potent inhibitor of cell cyclin kinases, to prevent meiotic resumption in porcine oocytes, and to test the subsequent fertilisability and developmental competence of these oocytes. Roscovitine blocked porcine oocytes at the GV stage during 22-44 hr of culture. This effect was dose-dependent, and a concentration of 25 microM was sufficient to prevent meiotic resumption in 92+/-5% of the oocytes after 22 hr in the presence of EGF and FSH. Cumulus expansion was also inhibited under these conditions. The histone H1 kinase activity in oocytes was inhibited in a dose-dependent way, and maintained at a basal level with 25 microM of roscovitine. Synthesis of proteins of 29, 47 and 79 kDa, normally synthesized during maturation, was inhibited too. All these effects were fully reversible. However, the kinetics of maturation were accelerated after roscovitine removal, and the acceleration was more pronounced after 44 hr of inhibition than after 22 hr. Fertilization of oocytes blocked for 22 hr before a 44 hr maturation was decreased compared to control, but was not different from that of oocytes matured for 66 hr. The developmental competence was decreased for the oocytes cultured for 66 hr, including or not an inhibition period, but it was less reduced for oocytes maintained under inhibition for 22 hr. Roscovitine may thus protect oocytes against the aging mechanisms responsible for developmental competence loss, but not against loss of fertilisability. In conclusion, roscovitine provides a useful tool to study the morphological and biochemical basis of porcine oocyte terminal differentiation.
The onset of RNA synthesis in developing early pig embryos from 1-cell to 8-cell and morula stages was studied using high-resolution autoradiography of (5-3H)uridine incorporation. No transcriptional activity was detected in nuclei of 1- and 2-cell stage embryos with this technique. In these embryos nucleolus-like bodies (NLB) consist of sharply delineated, round, electron dense fibrillar masses. In the 4-cell stage embryos, the first uridine-3H incorporation in the nucleoplasm was detected and localized mainly near the regions of condensed chromatin. The first signs of reticulation and chromatin association were observed at the periphery of NLBs. In the next cell cycle (5- to 8-cell embryos) uridine-3H labelling was detected in the nucleoplasm and nucleoli. In these embryos, nucleoli consist of a central dense fibrillar mass without any transcriptional activity and fibrillo-granular cortex over which label was localized. The degree of functional restructure of nucleoli was variable within one blastomere or among different blastomeres, some nucleoli being more reticulated and showing more transcriptional activity than others. Fully developed nucleoli were present in early morulae. Electron dense unidentified structures described here as small dense round-shaped bodies (RDB) often surrounded by blocks of large chromatin granules were observed in intact 2-cell and alpha-amanitin treated 4-cell stage embryos. These structures did not show any transcriptional activity.
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