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High Developmental Competence of Pig Oocytes after Meiotic Inhibition with a Specific M-Phase Promoting Factor Kinase Inhibitor, Butyrolactone I¹

^a Department of Animal Sciences, University of Missouri-Columbia, Columbia, Missouri 65211 ^b Monsanto, St. Louis, Missouri 63198

Butyrolactone I specifically inhibits M-phase promoting factor activation and prevents the resumption of meiosis. These experiments were conducted to examine effects of butyrolactone I on pig oocytes in a serum-free maturation system. The first experiment was conducted to determine the effect of butyrolactone I (0–100 µM) on nuclear maturation. At concentrations of 12.5 µM, germinal vesicle breakdown was prevented in >90% of the oocytes after 24 h of culture. In the second experiment, the kinetics of in vitro maturation of butyrolactone I-treated oocytes was investigated. Oocytes were treated with 0 or 12.5 µM butyrolactone I and FSH for 20 h and then cultured with LH in the absence of butyrolactone I for another 24 h. Fewer butyrolactone I-treated oocytes reached MII stage at 36 h compared with controls (5.8% vs. 62.4%, P < 0.01). However, by 44 h, 83.4% of butyrolactone I-treated oocytes reached MII compared with 88.6% of controls. In the third experiment, butyrolactone I-treated oocytes were fertilized and cultured in vitro. No differences (P > 0.05) were found between controls and treated groups in cleavage rate, blastocyst rate, or mean number of cells per blastocyst. Effects of butyrolactone I on mitogen-activated protein kinase activation and localization of microfilaments and active mitochondria were examined by Western blot analysis and laser scanning confocal microscopy, respectively. The results suggested that although butyrolactone I reversibly inhibited germinal vesicle breakdown and mitogen-activated protein kinase activation, it did not affect mitochondrial and microfilament dynamics. Butyrolactone I is a potent inhibitor of nuclear maturation of porcine oocytes, and the inhibition is fully reversible.

First decision: 8 January 2002.

¹ This study was supported by the collaborative animal research program between the University of Missouri Department of Animal Sciences and Monsanto Animal Agriculture Group: Development of Biotechnology Tools for Improved Genetic and Reproductive Performance in Swine. It was also supported in part by the Missouri Agricultural Experiment Station.

² Correspondence: Billy N. Day, 159 Animal Science Research Center, Department of Animal Sciences, University of Missouri-Columbia, 920 East Campus Drive, Columbia, MO 65211. FAX: 573 884 7827;dayb{at}missouri.edu

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