Porcine Sperm Capacitation and Tyrosine Kinase Activity Are Dependent on Bicarbonate and Calcium but Protein Tyrosine Phosphorylation Is Only Associated with Calcium1
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Mammalian sperm undergo capacitation in the female reproductive tract or under defined conditions in vitro. Although capacitation is now considered to be mediated by intracellular signaling events, including protein phosphorylation, the regulation of the transduction mechanisms is poorly understood. The objective of the present study was to evaluate the importance of medium components on capacitation of porcine sperm, the appearance of an Mr 32 000 sperm protein (p32), and activity of a tyrosine kinase (TK-32). As determined by the ability of the sperm to undergo the A23187-induced acrosome reaction, pig sperm require bicarbonate and calcium but not BSA for capacitation in vitro. The appearance of p32 was assessed by immunoblotting SDS-extracted and separated sperm proteins using an anti-phosphotyrosine antibody. The appearance of p32 requires calcium, although p32 appears even in the absence of bicarbonate in the incubation medium, demonstrating that the appearance of this tyrosine phosphoprotein is not a final end point of pig sperm capacitation. An in-gel tyrosine kinase renaturation assay showed that TK-32 activity depends on calcium and bicarbonate in the incubation medium. Immunoprecipitation experiments using an anti-phosphotyrosine antibody and inhibitor demonstrated that p32 and TK-32 are different proteins. These data indicate that the signal transduction mechanisms of capacitation in pig sperm are different from those in other mammals, suggesting that certain species specificity may exist with respect to this phenomenon.Keywords:
Capacitation
Bicarbonate
In the accompanying report (Visconti, P.E., Bailey, J.L., Moore, G.D., Pan, D., Olds-Clarke, P. and Kopf, G.S. (1995) Development, 121, 1129-1137) we demonstrated that the tyrosine phosphorylation of a subset of mouse sperm proteins of M(r) 40,000-120,000 was correlated with the capacitation state of the sperm. The mechanism by which protein tyrosine phosphorylation is regulated in sperm during this process is the subject of this report. Cauda epididymal sperm, when incubated in media devoid of NaHCO3, CaCl2 or bovine serum albumin do not display the capacitation-associated increases in protein tyrosine phosphorylation of this subset of proteins. This NaHCO3, CaCl2 or bovine serum albumin requirement for protein tyrosine phosphorylation can be completely overcome by the addition of biologically active, but not inactive, cAMP analogues. Addition of the active cAMP analogues to sperm incubated in media devoid of NaHCO3, CaCl2 or bovine serum albumin overcomes the inability of these media to support capacitation, as assessed by the ability of the cells to acquire the pattern B chlortetracycline fluorescence, to undergo the zona pellucida-induced acrosome reaction and, in some cases, to fertilize metaphase II-arrested eggs in vitro. The effects of the cAMP analogues to enhance protein tyrosine phosphorylation and to promote capacitation appears to be at the level of the cAMP-dependent protein kinase (PKA), since two specific inhibitors of this enzyme (H-89 and Rp-cAMPS) block the capacitation-dependent increases in protein tyrosine phosphorylation in sperm incubated in media supporting capacitation. Capacitation, as assessed by the aforementioned endpoints, also appears to be inhibited by H-89 in a concentration-dependent manner. These results provide further evidence for the interrelationship between protein tyrosine phosphorylation and the appearance of the capacitated state in mouse sperm. They also demonstrate that both protein tyrosine phosphorylation and capacitation appear to be regulated by cAMP/PKA. Up-regulation of protein tyrosine phosphorylation by cAMP/PKA in sperm is, to our knowledge, the first demonstration of such an interrelationship between tyrosine kinase/phosphatase and PKA signaling pathways.
Capacitation
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Capacitation
Acrosome reaction
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Abstract Capacitation of spermatozoa, a complex process occurring after sperm ejaculation, is required to produce fertilization of the oocyte in vivo and in vitro. Although this process results from a poorly understood series of morphological and molecular events, protein tyrosine phosphorylation has been associated with sperm capacitation in several mammalian species, but it still remains to be demonstrated in ram spermatozoa. Studies of capacitation in ram spermatozoa are of great interest, since several reports have suggested that the reduced fertility of cryopreserved spermatozoa is due to their premature capacitation. In this work, we report for the first time, to our knowledge, that tyrosine phosphorylation of ram sperm membrane proteins is related to the capacitation state of these cells. Capacitation induced tyrosine phosphorylation of some plasma membrane proteins of ram spermatozoa freed from seminal plasma by a dextran/swim‐up procedure. It has also been proved that cold‐shock induces protein tyrosine phosphorylation as well as a decrease in plasma membrane integrity. Addition of seminal plasma proteins prior to cold‐shock not only improved sperm survival but also promoted a decrease in protein tyrosine phosphorylation. Mol. Reprod. Dev. 61: 226–233, 2002. © 2002 Wiley‐Liss, Inc.
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Phosphorylation of tyrosine residues on sperm proteins is one important intracellular mechanism regulating sperm function that may be a meaningful indicator of capacitation. There is substantial evidence that cryopreservation promotes the capacitation of sperm and this cryocapacitation is frequently cited as one factor associated with the reduced longevity of cryopreserved sperm in the female reproductive tract. This study was designed to determine whether stallion sperm express different levels of tyrosine phosphorylation after in vitro capacitation and whether thawed sperm display similar phosphorylation characteristics in comparison with freshly ejaculated sperm. Experiments were performed to facilitate comparisons of tyrosine phosphorylation, motility, and viability of sperm prior to and following in vitro capacitation in fresh and frozen-thawed sperm. We hypothesized that equine spermatozoa undergo tyrosine phosphorylation during capacitation and that this phosphorylation is modified when sperm have been cryopreserved. We also hypothesized that tyrosine phosphorylation could be enhanced by the use of the activators dibutyryl cAMP (db cAMP) and caffeine, as well as methyl β-cyclodextrin—which causes cholesterol efflux from the spermatozoa—and inhibited by the protein kinase A (PK-A) inhibitor H-89. Our results indicate that equine sperm capacitation is mediated by a signaling pathway that involves cAMP-dependent PK-A and tyrosine kinases and that cryopreserved sperm may be more sensitive to inducers of capacitation, which could explain their limited life span when compared with fresh sperm.
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Mammalian sperm must undergo a process known as capacitation before fertilization can take place. A key intracellular event that occurs during capacitation is protein tyrosine phosphorylation. The objective of this study was to investigate and visualize protein tyrosine phosphorylation patterns in human sperm during capacitation and interaction with the zona pellucida. The presence of specific patterns was also assessed in relation to the fertilizing capacity of the spermatozoa after in vitro fertilization. Protein tyrosine phosphorylation was investigated by immunofluorescence. Phosphorylation increased significantly with capacitation and was localized mainly to the principal piece of human sperm. Following binding to the zona pellucida, the percentage of sperm with phosphotyrosine residues localized to both the neck and the principal piece was significantly higher in bound sperm than in capacitated sperm in suspension. When the percentage of principal piece-positive sperm present after capacitation was <7%, fertilization rates after in vitro fertilization were reduced. Different compartments of human spermatozoa undergo a specific sequence of phosphorylation during both capacitation and upon binding to the zona pellucida. Tyrosine phosphorylation in the principal and neck piece may be considered a prerequisite for fertilization in humans.
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Phosphorylation of tyrosine residues in cellular proteins represents a major event during sperm capacitaton, but its relationship with the acquisition of sperm-fertilizing ability is still unclear. In this study we explored the relationship between the kinetics of the global tyrosine phosphorylation, monitored with a flow cytometric assay, and the acquisition of the human sperm ability to fuse with oocytes, evaluated with the progesterone-enhanced hamster egg penetration test. Sperm tyrosine phosphorylation appeared to be an early event in the capacitation process, with a 3.6-fold mean increase within 1 h of capacitation, but at this time sperm-oocyte fusion was extremely poor compared with that observed at 5 h of capacitation. Capacitation in calcium-free medium produced a 2-fold mean increase in tyrosine phosphorylation compared with that seen in complete capacitation medium both at 1 h and 5 h of capacitation, whereas sperm-oocyte fusion significantly increased only at 1 h, remaining unchanged at 5 h of capacitation. The cAMP analog, N,2-O-dibutyryladenosine 3',5'-cyclic monophosphate (dbcAMP), prevented the inhibitory effect of seminal plasma on tyrosine phosphorylation but not on sperm-oocyte fusion. In conclusion, these results suggest that the acquisition of sperm-fertilizing ability is always associated with an increase of the global tyrosine phosphorylation, but tyrosine phosphorylation does not necessarily reflect the acquisition of the sperm-fertilizing ability. Flow cytometry assay, a reliable technique to quickly quantify the global levels of the human sperm tyrosine phosphorylation, could be useful for a further elucidation of the biological meaning of this process, with the perspective of its clinical use as a measure of the sperm-fertilizing potential.
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The aim of the present study was to detect the localization and level of tyrosine phosphorylated proteins during in vitro capacitation of pig sperms.Sperm from mature pigs were incubated in modified mTBM under 5% CO2 in air at 37 ℃.The capacitation effect was assessed by Coomassie brilliant blue staining.Localization of tyrosine phosphorylation was checked by indirect immunofluorescence assay.The results showed that pig sperms were a time-dependent increase in protein tyrosine phosphorylation during the in vitro capacitation and the percentage of protein tyrosine phosphorylated sperms increased from 35% to 88% of the beginning of incubation to 1.5 h incubation.
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Immunofluorescence
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Sperm capacitation in vitro is thought to be correlated with the increased protein tyrosine phosphorylation of a subset of sperm components. Our group recently used a pharmacological approach to demonstrate that calmodulin (CaM), a 17 kDa calcium sensor protein, has a role in sperm capacitation. In the present study, we have used several CaM antagonists in an attempt to characterize further the role of CaM in capacitation-associated protein tyrosine phosphorylation of sperm components. Our data demonstrate, first, that mouse spermatozoa incubated in a medium that favors capacitation undergo increased protein tyrosine phosphorylation in a time-dependent manner. Second, inclusion of six CaM antagonists individually in an in vitro incubation medium prevented sperm capacitation, as demonstrated by their diminished ability to undergo agonist-induced acrosome reaction. Third, half of the CaM antagonists (compound 48/80, W13 and CaM-binding domain) had no effect on protein tyrosine phosphorylation or sperm motility. Fourth, by contrast, three CaM antagonists (W7, ophiobolin A and calmidazolium) significantly inhibited protein tyrosine phosphorylation of sperm components (42, 56, 66, 82 and 95 kDa) and adversely affected their motility without altering viability as assessed by propidium iodine staining. Finally, inclusion of purified CaM in the capacitation medium significantly increased tyrosine phosphorylation of 82 kDa and 95 kDa components. Combined, these data suggest that CaM antagonists prevent capacitation by interfering with multiple regulatory pathways, and do so either with or without adverse effects on sperm motility and protein tyrosine phosphorylation.
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Ejaculated spermatozoon of mammalians should undergo a serious of modification in female to production tract before they acquire the ability to fuse with the oocytes in order to have a successful fertilization. This process is generally termed “capacitation”. The molecular mechanism of capacitation is still far from understanding, despite of the reports about the capacitation-related events, including the rearrangement of plasma membrane lipid, hyperactivated motility, intracellular Ca2+ elevation and protein tyrosine phosphorylation. Insulin-like growth factor-1 (IGF-1) is well known to stimulate the tyrosine kinase of its receptor (IGF-IR) in the regulation of cellular activity. In the seminal vesicle fluid, I could demonstrate IGF-1 by ELISA. Moreover, I could detect IGF-1 mRNA in any sexual glands of adult mice, and examine also IGF-IR on the mouse sperm head by indirect fluorescence technique. These data together prompted me to assess whether IGF-IR is involved in the capacitation-related protein tyrosine phosphorylation. I found the ability of IGF-1 to elicit the capacitation-related protein phosphorylation. The biochemical event could be suppressed by AG538, an inhibitor of IGF-IR. Meanwhile, the sperm capacitation induced by BSA caused the tyrosine phosphorylation of IGF-IR, and the protein tyrosine phosphorylation associated the capacitation could be greatly reduced by AG538. These data suffer ligand-independent IGF-IR on sperm head in the capacitation-related protein phosphorylation.
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Capacitation is a prerequisite step that mammalian sperm must take before being able to undergo the acrosome reaction (AR). The molecular mechanisms of this process remain incompletely understood and can be studied only in vitro. Human sperm preparation for insemination of oocytes requires the removal of seminal plasma and incubation in defined media that usually contain albumin and calcium. In various conditions of capacitation, we have studied the relationship between protein tyrosine phosphorylation as measured by Western blotting and the capacitation state as evaluated by ionomycin-induced AR in the presence of calcium. Several proteins with molecular masses from 60 to 200 kDa became increasingly phosphorylated with time. The kinetics of phosphorylation showed an inter-individual variability, with a maximal level reached between 1 and 4 h, and was associated with the capacitation state. Albumin increased phosphorylation in a concentration-dependent manner. Lack of albumin prevented both phosphorylation and capacitation. Conversely, lack of CaCI2 in the capacitating medium enhanced phosphorylation and did not impair the induced AR. Surprisingly, sperm incubation in seminal plasma, which is supposed to contain "decapacitation factors," did not affect the time-dependent increase in tyrosine phosphorylation. However, in seminal plasma-free medium, it inhibited induction of the AR.
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