P.M.M. Kastrop scite author profile

Bovine cumulus oocyte complexes were cultured for various periods and either denuded and orcein stained or radiolabeled with 35S-methionine or 32P-orthophosphate. Specific inhibitors were added to the culture medium to investigate mRNA and protein synthesis requirements for both nuclear and cytoplasmic changes during maturation in vitro. Inhibition of mRNA synthesis by alpha-amanitin during the first 2 h of culture prevented the phosphorylation of some specific proteins preceding GVBD and decreased the occurrence of GVBD from 97% to 27%. In addition, in oocytes that had undergone GVBD, only part of the changes in protein synthesis after GVBD were observed. Addition of alpha-amanitin after 3 h of culture had no effect on meiotic maturation. When cumulus oocyte complexes were cultured in the presence of cycloheximide, the phosphorylation of specific proteins was also blocked and only 5% of the oocytes underwent GVBD. Addition of cycloheximide after 4, 6, or 8 h of culture resulted in an increasing percentage of GVBD, but the oocytes became arrested in metaphase I. When cycloheximide was added from 12 h of culture onwards, nuclear progression to metaphase II was increasingly restored. It is concluded that after the onset of culture, both mRNA and protein synthesis are necessary for the phosphorylation of specific proteins and for GVBD. Furthermore, transcription during the first hours of culture is needed for the synthesis of new proteins after GVBD.

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Heterologous cell contacts and metabolic coupling in bovine cumulus oocyte complexes

Loos

Kastrop

Maurik

et al. 1991

Molecular Reproduction Devel

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The integrity of the cumulus cell processes were studied in four categories of bovine cumulus oocyte complexes (COCs) selected on their morphological characteristics. Three different types of cumulus cell process endings (CCPEs) were identified, one penetrating the cortex, another not penetrating the cortex, and a third form was intermediate and more rare in appearance. The process endings that penetrated the cortex frequently made gap junctions with the oolemma. The division of the three types of CCPEs over the four different COC categories was specific for three of the four categories. The first-category COC predominantly possessed the penetrating CCPE, the fourth-category COC possessed predominantly the nonpenetrating CCPE, and the second and third categories had both types of CCPEs. The metabolic coupling of the cumulus-oocyte contacts was assessed by means of incorporation of 3H-choline into the oocyte. The majority of category 4 COCs transferred low levels of choline into the oocyte while the majority of the oocytes of the other three categories transferred high levels of choline into the oocyte. Category 4 includes a smaller proportion of oocytes capable of cleaving after fertilization than the other three categories. This reduced developmental capacity is probably due to the loss of metabolic coupling before the onset of culture.

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P.M.M. Kastrop

Microbial contamination of embryo cultures in an ART laboratory: sources and management

The effects of α‐amanitin and cycloheximide on nuclear progression, protein synthesis, and phosphorylation during bovine oocyte maturation in vitro

Heterologous cell contacts and metabolic coupling in bovine cumulus oocyte complexes

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