The present study was carried out to evaluate if the addition of cysteamine to the culture medium during in vitro maturation of bovine oocytes increased the glutathione (GSH) levels in the mature oocytes, and if these changes may promote an improvement on in vitro development to the blastocyst stage. Follicular oocytes from slaughterhouse ovaries were matured in TCM 199 supplemented with 10% (v/v) fetal calf serum, hormones, and O (control), 25, 50, or 100 muM of cysteamine for 24 hr. After in vitro maturation the oocytes were fertilized and cultured for 8 days. The percentage of embryos that developed to the blastocyst stage was significantly higher (P < 0.01) for oocytes matured in medium containing 100 muM of cysteamine than for those matured in control medium. Moreover, the intracellular GSH levels were increased (P < 0.05) in oocytes matured with 100 muM of cysteamine with respect to control. No differences were observed in maturation and cleavage rates, and in the mean cell numbers per blastocyst among treatments (P > 0.05). These results indicate that the addition of thiol compounds such as cysteamine to maturation medium increases the efficiency of in vitro blastocyst production from immature bovine oocytes. The higher levels of GSH in oocytes matured in the presence of cysteamine suggest that the beneficial effects of cysteamine on in vitro maturation and subsequent development after in vitro fertilization are mediated by GSH.
Glutathione (GSH) synthesis during in vitro maturation (IVM) has been shown to play an important role in embryo development. The present study was carried out to evaluate the role of cumulus cells in GSH synthesis during IVM of bovine oocytes in the presence of cystine, cysteine, the cysteine analogue N-acetylcysteine, and cysteamine. For this purpose, cumulus-oocyte complexes (COCs), denuded oocytes (DOs), and DOs in coculture with a cumulus cell monolayer were used. An increase in GSH level stimulated by cystine was observed only in the presence of cumulus cells, either with COCs or in DOs matured on a coculture monolayer. Addition of cysteine and cysteamine to IVM medium increased GSH levels in COCs and DOs. N-Acetylcysteine increased GSH levels only in DOs. Moreover, cumulus cells contributed to the stimulatory effect exerted by cysteine and cysteamine on GSH synthesis in COCs. These results indicate that cumulus cells during IVM play an important role in oocyte GSH synthesis, allowing the oocytes to use cystine and contributing to the stimulatory effect exerted by cysteine and cysteamine. In addition, these results demonstrate that IVM medium supplemented with cysteine or cysteamine increased GSH content in oocytes without cumulus mass (DO) and in the absence of a cumulus cell monolayer. This may be useful to increase the efficacy of IVM of those oocytes having few cumulus cell layers, in a system without coculture.
It has long been known that seminal plasma contains factors that influence the fertilizing capacity of spermatozoa in many different ways. However, little is understood of the biochemical cascades triggered when spermatozoa and seminal plasma interact. In this study, we examined how incubation with seminal plasma affected protein tyrosine phosphorylation in human spermatozoa. Increased protein tyrosine phosphorylation is a hallmark of sperm capacitation in several mammalian species, including human. Seminal plasma blocks protein tyrosine phosphorylation when added to washed, non-capacitated spermatozoa. Removal of seminal plasma and incubation in capacitating medium led to partial recovery of the tyrosine phosphorylation cascade. Addition of seminal plasma to a suspension of spermatozoa previously incubated for 5 h under capacitating conditions decreased the level of tyrosine phosphorylation on all proteins in a dose-dependent manner. In this case, the phosphotyrosine signal did not increase upon removal of seminal plasma followed by overnight incubation in fresh capacitating media, indicating that removal of seminal plasma was necessary but not sufficient for protein tyrosine phosphorylation to occur. These results indicate that human seminal plasma contains factors that influence the tyrosine phosphorylation status of human spermatozoa.
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