Exosomes from porcine serum as endogenous additive maintain function of boar sperm during liquid preservation at 17 °C in vitro
Yang WangQimin LiuQingfang SunLijuan ZhengTianqi JinHeran CaoChao ZhuLong LiYe GongFangxia YangWuzi Dong
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Hyperactivation
Capacitation
Malondialdehyde
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Sperm must be capacitated before sperm-ovum fusion. Capacitation was once considered as hyperactivation. But now many investigators thought that capacitation wasn't equal to hyperactivation, and that sperm hyperactivation might be a moiety of capacitation or the result of capacitation. In the present, the methods used to study sperm capacitation include fertilization in vitro, induction of sperm acrosome reaction, FITC-labeled chlortetracycline and plant hemoagglutinin. The studies on sperm capacitation in vitro mainly focused on the inductive substances of sperm capacitation and subsequent results analysis. It could lay foundation for the manifestation of molecular mechanism of sperm capacitation and destination of sperm capacitation in molecular levels.
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The aim of this study was to evaluate the effects of Ca2+, BSA, NaHCO3 and PVA on the capacitation-associated time-dependent increase in protein tyrosine phosphorylation, hyperactivation, and acrosome reaction in hamster spermatozoa. Hamster spermatozoa when incubated in TALP, a medium that assists capacitation, showed a time-dependent increase in protein tyrosine phosphorylation that correlated with the capacitated state of the spermatozoa. An absence of Ca2+ or NaHCO3 in the capacitation medium delayed the phosphorylation of the proteins, but without both there was a significant decrease in the phosphorylation of the proteins throughout the period of capacitation. An absence of bovine serum albumin also caused a decrease in the phosphorylation of the proteins but this did not occur if polyvinyl alcohol was substituted for it in the medium. The percentage hyperactivation was not affected in the absence of bovine serum albumin if the medium contained polyvinyl alcohol. However, it was delayed in the absence of NaHCO3 and inhibited in the absence of Ca2+. The absence of NaHCO3 or bovine serum albumin had no effect on the acrosome reaction. These results show that hamster spermatozoa undergo capacitation-associated protein tyrosine phosphrylation similar to that of the spermatozoa of other mammals. However, hamster spermatozoa are unique in that the capacitation-associated protein tyrosine phosphorylation is not absolutely dependent on the presence of Ca2+ and NaHCO3. As far as we know, this study is the first to provide evidence that capacitation-associated protein tyrosine phosphorylation is linked to hyperactivation in hamster spermatozoa.
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The ability of strontium (Sr2+) to replace calcium (Ca2+) in maintaining human sperm function has still not been completely characterized. In the present study, acrosome reaction (AR) inducibility in response to human follicular fluid (hFF) was compared in spermatozoa incubated in either Ca2+- or Sr2+-containing media. Other events related to sperm capacitation, such as protein tyrosine phosphorylation and hyperactivation as well as zona pellucida (ZP) recognition under both conditions, were also analyzed. Spermatozoa incubated overnight in the presence of Sr2+ were unable to undergo the AR when exposed to hFF. Nevertheless, when spermatozoa were incubated under this condition and then transferred to medium with Ca2+, sperm response to hFF was similar to that of cells incubated throughout in the presence of Ca2+. The sperm protein tyrosine phosphorylation patterns and the percentages of sperm motility and hyperactivation were similar after incubation in Ca2+- or Sr2+-containing media. Under both conditions, the same binding capacity to homologous ZP was observed. Similar results were obtained when EGTA was added in order to chelate traces of Ca2+ present in Sr2+ medium. From these results, it can be concluded that Sr2+ can replace Ca2+ in supporting capacitation-related events and ZP binding, but not hFF-induced AR of human spermatozoa.
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In an attempt to understand the role of nitric oxide(NO) in sperm capacitation, in the present study, hamster spermatozoa were used to evaluate the effects of NO on motility, viability, hyperactivation, capacitation and protein tyrosine and serine phosphorylation using specific inhibitors of nitric oxide synthase (NOS); namely L-NAME (N-nito-L-aginine methyl ester) and 7-Ni (7-nitroindazole). The results indicated that L-NAME inhibits sperm motility, hyperactivation and acrosome reaction where as 7-Ni inhibits only hyperactivation and acrosome reaction thus implying that NOS inhibitors exhibit subtle differences with respect to their effects on sperm functions. This study also provides evidence that NOS inhibitors inhibit sperm capacitation by their ability to modulate protein tyrosine phosphorylation. However, the inhibitors had no effect on the protein serine phosphorylation of hamster spermatozoa during capacitation. Thus, these results indicate that NO is required
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Mouse sperm were incubated in medium with or without 24 mM lactate and assessed for 1) motility characteristics including hyperactivation--a computer-assisted motion analysis system was used; 2) capacitation--a chlortetracycline fluorescent dye binding assay was used; and 3) ability to penetrate oocytes. Lactate affected all aspects of motility and delayed the rates of both hyperactivation and capacitation. When a concentration of 8 x 10(3) sperm/ml was used for insemination in vitro, sperm preincubated 60-90 minutes in medium with lactate prior to insemination in lactate-free medium fertilized fewer oocytes than did sperm preincubated in lactate-free medium. Use of a calcium-sensitive electrode demonstrated that lactate chelated appreciable amounts of calcium in the medium. Capacitation was assayed in sperm incubated 60 minutes in medium with various concentrations of lactate or CaCl2. When medium containing lactate was compared to medium without lactate but having a similar level of free calcium, the level of capacitation of sperm incubated with lactate was less than half that of sperm incubated without lactate. These results demonstrate that including 24 mM lactate in the medium can have detrimental effects on mouse sperm hyperactivation and capacitation. The detrimental effects on capacitation are partly but not completely due to the chelation of calcium by lactate.
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Before fertilization, inseminated spermatozoa acquire the ability to fertilize an egg, a phenomenon called capacitation. Bovine sperm capacitation is influenced by factors originating from both the male and female genital tract, and results in intracellular and membrane changes of the spermatozoa that facilitate the induction of the acrosome reaction. However, the effects of reproductive tract secretions and capacitation on the binding of spermatozoa to the zona pellucida have not been investigated. In this study, a sperm–egg binding assay was used to determine whether the ability of bull spermatozoa to bind to the zona pellucida was altered during in vitro capacitation by heparin or oviductal fluid, or by treatment of spermatozoa from the cauda epididymidis with accessory sex gland fluid. In addition, biotinylated solubilized zona pellucida proteins were used to visualize zona binding on spermatozoa. The ability of bull spermatozoa to bind to the zona pellucida was increased after both heparin and oviductal fluid induced in vitro capacitation. Exposure of spermatozoa from the cauda epididymidis to accessory sex gland fluid resulted in a direct increase in zona binding ability, followed by a further increase during capacitation in vitro. Binding of solubilized zona proteins was restricted to the acrosomal cap of bull spermatozoa. It is suggested that the observed increased ability of bull spermatozoa to bind to the zona pellucida enables optimal sperm–egg attachment, which also relates to the induction of the acrosome reaction by the zona pellucida. Thus, increased zona binding ability is likely to be an essential part of the process of capacitation.
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Mammalian sperm differ widely in sperm morphology, and several explanations have been presented to account for this diversity. Less is known about variation in sperm physiology and cellular processes that can give sperm cells an advantage when competing to fertilize oocytes. Capacitation of spermatozoa, a process essential for mammalian fertilization, correlates with changes in motility that result in a characteristic swimming pattern known as hyperactivation. Previous studies revealed that sperm motility and velocity depend on the amount of ATP available and, therefore, changes in sperm movement occurring during capacitation and hyperactivation may involve changes in sperm bioenergetics. Here, we examine differences in ATP levels of sperm from three mouse species (genus
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While hyperactivated motility is known to be a concomitant of capacitation, and a prerequisite for fertilization, the specific interdependence of capacitation and hyperactivation in human spermatozoa has not been investigated. This study was designed to determine the effect of seminal plasma contamination on the expression of hyperactivated motility and the relationship between hyperactivation and capacitation, since seminal plasma contains decapacitation factor(s). Seminal plasma was obtained by centrifugation of aliquots of liquefied semen layered over 1.5 ml 40.5% Percoll and mixed with human tubal fluid (HTF) medium containing 30 mg/ml human serum albumin (HSA) (HTF) to a final concentration of 5% (v/v) seminal plasma (SP). Motile spermatozoa were isolated from the remainder of the semen by swim-up into either HTF or SP medium. Samples were taken from each treatment immediately post-harvest (0 h) and after 60 min at 37 degrees C (1 h) for hyperactivation and capacitation assessment. The treatments were then divided into two portions, centrifuged and resuspended in either HTF or SP, giving HTF control and SP control treatments and two crossover treatments, 1 h HTF then 1 h SP (H/SP) and 1 h SP then 1 h HTF (SP/H). All tubes were incubated for a further 60 min at 37 degrees C before aliquots were taken for hyperactivation and capacitation assessments. Hyperactivation was estimated using an IVOS v10.6t (Hamilton Thorne Research, Beverly, MA, USA) 60 Hz CASA instrument, and capacitation was estimated using the chlortetracycline (CTC) method. The presence of seminal plasma in the capacitation medium for 60-120 min post-swim-up inhibited the development of hyperactivated motility. This inhibition was reversible, and was not prevented by preincubation for 1 h in HTF medium. There was no difference in the CTC binding patterns between treatments at 2 h, indicating that the capacitation-associated membrane changes were not affected by the presence of a low concentration of seminal plasma. There was no correlation between percentage capacitated and percentage hyperactivated spermatozoa for any treatment. Since the proportions of hyperactivated spermatozoa and capacitated spermatozoa were not related, we conclude that the processes leading to hyperactivation and to the membrane changes associated with capacitation are not tightly interlinked and consider this finding to be due to hyperactivated motility being associated with flagellar movement, while the CTC assay assesses changes in the Ca2+ levels of the sperm head plasma membrane.
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