Evolutionary diversification of SPANX-N sperm protein gene structure and expression

The sperm protein associated with nucleus in the X chromosome (SPANX) genes cluster at Xq27 in two subfamilies, SPANX-A/D and SPANX-N. SPANX-A/D is specific for hominoids and is fairly well characterized. The SPANX-N gave rise to SPANX-A/D in the hominoid lineage approximately 7 MYA. Given the proposed role of SPANX genes in spermatogenesis, we have extended studies to SPANX-N gene evolution, variation, regulation of expression, and intra-sperm localization. By immunofluorescence analysis, SPANX-N proteins are localized in post-meiotic spermatids exclusively, like SPANX-A/D. But in contrast to SPANX-A/D, SPANX-N are found in all ejaculated spermatozoa rather than only in a subpopulation, are localized in the acrosome rather than in the nuclear envelope, and are expressed at a low level in several nongametogenic adult tissues as well as many cancers. Presence of a binding site for CTCF and its testis-specific paralogue BORIS in the SPANX promoters suggests, by analogy to MAGE-A1 and NY-ESO-1, that their activation in spermatogenesis is mediated by the programmed replacement of CTCF by BORIS. Based on the relative density of CpG, the more extended expression of SPANX-N compared to SPANX-A/D in nongametogenic tissues is likely attributed to differences in promoter methylation. Our findings suggest that the recent duplication of SPANX genes in hominoids was accompanied by different localization of SPANX-N proteins in post-meiotic sperm and additional expression in several nongonadal tissues. This suggests a corresponding functional diversification of SPANX gene families in hominoids. SPANX proteins thus provide unique targets to investigate their roles in the function of spermatozoa, selected malignancies, and for SPANX-N, in other tissues as well.     

Heterodimerization of human apelin and kappa opioid receptors: roles in signal transduction

Apelin receptor (APJ) and kappa opioid receptor (KOR) are members of the family A of G protein-coupled receptors (GPCRs). These two receptors are involved in the central nervous system regulation of the cardiovascular system. Here, we explore the possibility of heterodimerization between APJ and KOR and investigate their novel signal transduction characteristics. Co-immunoprecipitation (Co-IP), co-localization and bioluminescence resonance energy transfer (BRET) assays confirmed the heterodimerization of APJ and KOR. In APJ and KOR stably transfected HEK293 cells, treatment with APJ ligand apelin-13 or KOR ligand dynorphinA (1-13) resulted in higher phosphorylation levels of extracellular-regulated kinases 1/2 (ERK1/2) compared to HEK293 cells transfected with either APJ or KOR alone. The siRNA knockdown of either APJ or KOR receptor in human umbilical vein endothelial cells (HUVECs) resulted in significant reduction of the apelin-13 induced ERK activation. Additionally both forskolin (FSK)-induced cAMP levels and cAMP response element reporter activities were significantly reduced, whereas the serum response element luciferase (SRE-luc) reporter activity was significantly upregulated. Moreover, the ERK phosphorylation and SRE-luc activity were abrogated by the protein kinase C (PKC) inhibitor. These results demonstrate for the first time that human APJ forms a heterodimer with KOR and leads to increased PKC and decreased protein kinase A activity leading to a significant increase in cell proliferation, which may translate to the regulation of diverse biological actions and offers the potential for the development of more selective and tissue specific drug therapies.     

Tyrosine phosphorylation of the a kinase anchoring protein 3 (AKAP3) and soluble adenylate cyclase are involved in the increase of human sperm motility by bicarbonate

Mammalian testicular spermatozoa are immotile, thus, to reach the oocyte, they need to acquire swimming ability under the control of different factors acting during the sperm transit through the epididymis and the female genital tract. Although bicarbonate is known to physiologically increase motility by stimulating soluble adenylate cyclase (sAC) activity of mammalian spermatozoa, no extensive studies in human sperm have been performed yet to elucidate the additional molecular mechanisms involved. In this light, we investigated the effect of in vitro addition of bicarbonate to human spermatozoa on the main intracellular signaling pathways involved in regulation of motility, namely, intracellular cAMP production and protein tyrosine phosphorylation. Bicarbonate effects were compared with those of the phosphatidyl-inositol-3 kinase inhibitor, LY294002, previously demonstrated to be a pharmacological stimulus for sperm motility. Bicarbonate addition to spermatozoa results in a significant increase in sperm motility as well as in several hyperactivation parameters. This stimulatory effect of bicarbonate and LY294002 is mediated by an increase in cAMP production and tyrosine phosphorylation of the A kinase anchoring protein, AKAP3. The specificity of bicarbonate effects was confirmed by inhibition with 4,4'-di-isothiocyanostilbene-2,2'-disulfonic acid. We remark that, in human spermatozoa, bicarbonate acts primarily through activation of sAC to stimulate tyrosine phosphorylation of AKAP3 and sperm motility because both effects are blunted by the sAC inhibitor 2OH-estradiol. In conclusion, our data provide the first evidence that bicarbonate stimulates human sperm motility and hyperactivation through activation of sAC and tyrosine phosphorylation of AKAP3, finally leading to an increased recruitment of PKA to AKAP3.     

Identification and characterization of RHOA-interacting proteins in bovine spermatozoa

In somatic cells, RHOA mediates actin dynamics through a GNA13-mediated signaling cascade involving RHO kinase (ROCK), LIM kinase (LIMK), and cofilin. RHOA can be negatively regulated by protein kinase A (PRKA), and it interacts with members of the A-kinase anchoring (AKAP) family via intermediary proteins. In spermatozoa, actin polymerization precedes the acrosome reaction, which is necessary for normal fertility. The present study was undertaken to determine whether the GNA13-mediated RHOA signaling pathway may be involved in acrosome reaction in bovine caudal sperm, and whether AKAPs may be involved in its targeting and regulation. GNA13, RHOA, ROCK2, LIMK2, and cofilin were all detected by Western blot in bovine caudal sperm. Overlay, immunoprecipitation, and subsequent mass spectrometry analysis identified several RHOA-interacting proteins, including proacrosin, angiotensin-converting enzyme, tubulin, aldolase C, and AKAP4. Using overlay and pulldown techniques, we demonstrate that phosphorylation of AKAP3 increases its interaction with the RHOA-interacting proteins PRKAR2 (the type II regulatory subunit of PRKA, formerly RII) and ropporin (ROPN1, a PRKAR2-like protein, or R2D2). Varying calcium concentrations in pulldown assays did not significantly alter binding to R2D2 proteins. These data suggest that the actin-regulating GNA13-mediated RHOA-ROCK-LIMK-cofilin pathway is present in bovine spermatozoa, that RHOA interacts with proteins involved in capacitation and the acrosome reaction, and that RHOA signaling in sperm may be targeted by AKAPs. Finally, AKAP3 binding to PRKAR2 and ROPN1 is regulated by phosphorylation in vitro.     

The genetic and molecular analysis of spe-19, a gene required for sperm activation in Caenorhabditis elegans

During the process of spermiogenesis (sperm activation) in Caenorhabditis elegans, the dramatic morphological events that ultimately transform round sessile spermatids into polar motile spermatozoa occur without the synthesis of any new gene products. Previous studies have identified four genes (spe-8, spe-12, spe-27 and spe-29) that specifically block spermiogenesis and lead to hermaphrodite-specific fertility defects. Here, we report the cloning and characterization of a new component of the sperm activation pathway, spe-19, that is required for fertility in hermaphrodites. spe-19 is predicted to encode a novel single-pass transmembrane protein. The spe-19 mutant phenotype, genetic interactions and the molecular nature of the gene product suggest SPE-19 to be a candidate for the receptor/co-receptor necessary for the transduction of the activation signal across the sperm plasma membrane.     

Regulation of sperm activation by SWM-1 is required for reproductive success of C. elegans males

BACKGROUND: Sexual reproduction in animals requires the production of highly specialized motile sperm cells that can navigate to and fertilize ova. During sperm differentiation, nonmotile spermatids are remodeled into motile spermatozoa through a process known as spermiogenesis. In nematodes, spermiogenesis, or sperm activation, involves a rapid cellular morphogenesis that converts unpolarized round spermatids into polarized amoeboid spermatozoa capable of both motility and fertilization. RESULTS: Here we demonstrate, by genetic analysis and in vivo and in vitro cell-based assays, that the temporal and spatial localization of spermiogenesis are critical determinants of male fertility in C. elegans, a male/hermaphrodite species. We identify swm-1 as a factor important for male but not hermaphrodite fertility. We show that whereas in wild-type males, activation occurs after spermatids are transferred to the hermaphrodite, swm-1 mutants exhibit ectopic activation of sperm within the male reproductive tract. This ectopic activation leads to infertility by impeding sperm transfer. The SWM-1 protein is composed of a signal sequence and two trypsin inhibitor-like domains and likely functions as a secreted serine protease inhibitor that targets two distinct proteases. CONCLUSIONS: These findings support a model in which (1) proteolysis acts as an important in vivo trigger for sperm activation and (2) regulating the timing of proteolysis-triggered activation is crucial for male reproductive success. Furthermore, our data provide insight into how a common program of gamete differentiation can be modulated to allow males to participate in reproduction in the context of a male/hermaphrodite species where the capacity for hermaphrodite self-fertilization has rendered them nonessential for progeny production.     

Characteristics of monoclonal antibodies reactive with human sperm and seminal plasma

The characteristics of monoclonal antibodies developed against human spermatozoa are described. Out of 10 monoclonal antibodies 9 did not react in ELISA with human RBC, WBC, platelets, Raji cells nor mouse sperm. Four monoclonal antibodies reacted with monkey sperm and all 10 reacted with human seminal plasma. Monoclonal antibodies showed differential reactivity with pre- and post-capacitated sperm. Four monoclonal antibodies were able to agglutinate sperm whereas none of these were positive in sperm-immobilization assay. Interestingly, two monoclonal antibodies (MA-46 and MA-50) were able to block the attachment of pre-capacitated sperm to zona denuded hamster oocytes. MA-46 and MA-50 recognized in immunoblot spermatozoa antigens having apparent molecular weights of 14 and 20 K Da and greater than 200 K Da respectively. The monoclonal antibodies reported in this study will be useful in further delineating the spermatozoa antigens involved in regulation of fertility.     

Immunochemical and functional characterization of a polyclonal antibody to human sperm antigen

A polyclonal antibody was raised against a 16 kDa human sperm protein identified by a monoclonal antibody to human sperm. The antibody showed significant reactivity with mouse spermatozoa as seen by ELISA. Immunohistochemical analysis showed that the antibody reacted with antigens from mouse testis, prostate as well as seminal vesicle. In both mouse and human testis the antibody localized antigens in round as well as elongated spermatids and mature spermatozoa. By SDS-PAGE and Western blot analysis the antibody reacted with a 16 kDa protein in the testis and seminal vesicle, whereas in the prostate it identified two proteins, one at 20 kDa and another at 25 kDa. Immunofluorescent localization by the antibody showed reactivity with acrosomal and/equatorial and midpiece region of human spermatozoa. The antibody showed extensive agglutination both in mouse and human spermatozoa. The results indicate that the antigen may be a conserved antigen. Cross reactivity of the antibody with mouse spermatozoa enabled us to carry out antifertility trials. Passive immunization of female mice with this antibody caused 67% reduction in fertility. It is likely that the antifertility effect could be partly due to agglutinating nature of the antibody which may have caused inhibition of all processes that depend on forward motility such as cervical mucus penetration and possibly preventing sperm egg interaction. Such well characterized and functionally relevant antibodies will enable to identify sperm antigens relevant for fertility. Identification of such antigens may also help in diagnosis of immuno infertility.     

Functional activity of adenylyl and guanylyl cyclases in human spermatozoa with different motility

The most important functional characteristic of ejaculated spermatozoa is their ability to engage in directed sustained movement, which to a large extent determines their fertility. It is assumed that enzymes with cyclase activity—adenylyl cyclase (AC) and guanylyl cyclase (GC)—soluble and membrane-bound forms of which are found in human and mammalian sperm, play the key role in regulation of motility. However, the functional activity of the cyclases in ejaculated spermatozoa with different motilities and their contribution to the regulation of this process are virtually unexplored. The goal of this work was to determine the functional characteristics of AC and GC in ejaculates of human spermatozoa with different contents of motile forms and the study of regulation of these enzymes by hormones and nonhormonal agents. We found differences in the activity and regulatory properties of AC and GC in ejaculates differing in motile forms of spermatozoa. The basal AC activity and its sensitivity to bicarbonate anions and manganese cations, activators of cytosolic AC (cAC), were increased in ejaculates with a high proportion of motile spermatozoa. At the same time, the AC effects of forskolin, GppNHp, and adrenergic receptor agonists acting via membrane-bound AC (mAC) in this case were significantly reduced. Cytosolic GC in the ejaculates with a high proportion of motile spermatozoa was more sensitive to manganese cations, but the basal activity of GC was altered slightly. An increase in the content of motile spermatozoa in ejaculate led to a decrease in the sensitivity of CNP to receptor GC, while the sensitivity to ANP was maintained, which indicates a change in the pattern of enzyme regulation with natriuretic peptides in favor of ANP, an important regulator of sperm chemotaxis. Thus, we have concluded that the change in proportion of motile spermatozoa in ejaculate induces changes of functional activity and regulatory properties of soluble and membrane-bound forms of AC and GC, which can be used to control the motility, chemotaxis, acrosomal reaction, and other processes determining fertility of male germ cells.     

Ice-age endurance: the effects of cryopreservation on proteins of sperm of common carp, Cyprinus carpio L

Damage to spermatozoa during cryopreservation is regarded as a major obstacle to the expansion of sperm storage technology. The authors used two-dimensional polyacrylamide gel electrophoresis and matrix-associated laser desorption/ionization time-of-flight mass spectrometry to explore whether the protein profile of common carp (Cyprinus carpio) spermatozoa is affected by cryopreservation. Fourteen protein spots were significantly altered following cryopreservation. Eleven of these were identified: three as specific membrane proteins (N-ethylmaleimide-sensitive fusion protein attachment protein alpha, cofilin 2, and annexin A4) involved in membrane trafficking, organization, and cell movement; six as cytoplasmic enzymes (S-Adenosylhomocysteine hydrolase, Si:dkey-180p18.9 protein, lactate dehydrogenase B, phosphoglycerate kinase 1, transaldolase 1, and esterase D/formylglutathione hydrolase) involved in cell metabolism, oxidoreductase activity, and signal transduction; and two as transferrin variant C and F. Based on these findings, the authors hypothesize that transferrin in cryopreserved sperm may protect spermatozoa against oxidative damage during the freeze-thaw process. Cryopreservation caused changes in spermatozoa protein profiles that may lead to decreased spermatozoa velocity, motility, and fertilization success, and to subsequent ova hatching rate.     

Fertility-related proteomic profiling bull spermatozoa separated by percoll

Infertility or subfertility of bovine spermatozoa may lead to disintegration of the breeding system and large economic losses. Recently, proteomics have identified candidates for the sperm fertility biomarkers, but no definite studies have clearly identified the relationship between the proteome and sperm fertility after proteomic study. Therefore, to determine the clinical value of the protein markers identified by proteomic study, we first compared the protein expression profiles of spermatozoa from high and low fertility bulls using 2-dimensional electrophoresis. We then investigated the relationship between protein expression and the fertility of individual bulls as assessed by Western blot analysis. Five proteins, enolase 1 (ENO1), ATP synthase H(+) transporting mitochondrial F1 complex beta subunit, apoptosis-stimulating of p53 protein 2, alpha-2-HS-glycoprotein, and phospholipid hydroperoxide glutathione peroxide, were more highly represented in high fertility bulls, whereas three proteins, voltage dependent anion channel 2 (VDAC2), ropporin-1, and ubiquinol-cytochrome-c reductase complex core protein 2 (UQCRC2), were more highly represented in low fertility bulls. Among those proteins, ENO1, VDAC2, and UQCRC2 were significantly correlated with individual fertility. Therefore, these results suggest that concurrent comparisons between protein expression and other fertility assays may represent a good in vitro assay to determine sperm fertility.     

Bull subfertility is associated with low levels of a sperm membrane antigen

During epididymal transit, mammalian spermatozoa acquire new surface antigens that may participate in gamete interaction. We have previously described a 26 kDa (P26h) epididymal hamster sperm protein that is proposed to be involved in fertilization. We have also identified its human homolog, P34H. Variability in the amount of P34H on spermatozoa from fertile and idiopathic infertile men provides strong evidence that this protein is a potential marker of male fertility. Since these sperm antigens constitute a family of proteins with common antigenicity, we have investigated the presence of a related protein in bovine sperm. In the present study, a P26h antiserum recognized two bull sperm proteins of 21 kDa and 25 kDa (MW) on SDS‐PAGE. We showed that P25b could be extracted with detergent as a surface protein, whereas the P21b was associated with non‐soluble intracellular structures. Sonication of whole sperm cell suspensions and subsequent Percoll gradient centrifugation revealed that P21b may be a flagellar protein whereas the P25b may be located in the head region. Western blot analysis was used to determine the amount of P25b and P21b proteins present on spermatozoa obtained from fertile and subfertile bulls. P21b protein levels were similar in fertile and subfertile bulls, but P25b protein levels were variable. Thus, all bulls with high Non‐Return Rates (fertile bulls) demonstrated high amounts of P25b, whereas P25b levels were decreased in semen from subfertile bulls. We conclude that the protein P25b is a potential fertility marker in the bull and consequently may provide an invaluation tool for the evaluation of bull fertility. Mol. Reprod. Dev. 52:57–65, 1999. © 1999 Wiley‐Liss, Inc.     

Identification of bovine doppel protein in testis, ovary and ejaculated spermatozoa

Doppel (Dpl) protein is a recently identified prion-like protein. Although Dpl might be expressed in the brain after prion gene deletion, in both human and mice Dpl is normally expressed only in testis and spermatozoa, where it appears to be involved in male fertility. Little information is available so far about the expression pattern of Dpl in bovines, thus, hampering possible research on the role of this protein in bovine infertility. We have thus, designed, produced and validated through Western blotting a polyclonal antibody against bovine Dpl. With this antibody we then screened bovine tissues for Dpl expression by immunohistochemistry. Ejaculated spermatozoa were screened by flow cytometry and immunocytochemistry. Bovine Dpl was expressed in all the developing stages of germinal cells, from spermatogones to ejaculated spermatozoa, in Sertoli cells and in ovarian follicles (granulosa cells and follicular fluid). Dpl immunoreactivity was also found on other tissues, where endothelial cells, peripheral nerves and scattered lymphocytes stained positive. This distribution pattern suggests that Dpl might be involved in sperm maturation/capacitation in bovines, like it might be in mice. This hypothesis needs to be verified by widespread application of the flow cytometric protocol established in this paper on spermatozoa from animals with reduced fertility.     

Agonist-induced regulation and trafficking of kappa opioid receptors

Chronic or repeated administration of κ opioid agonists leads to tolerance to the subsequent drug administration. The mechanisms underlying tolerance are complex and changes at the receptor level contribute in part to the development of tolerance. This review focuses on agonist-induced phosphorylation, desensitization, internalization and down-regulation of the κ opioid receptor. In vivo studies on the rat and guinea pig brains are reviewed, followed by in vitro investigations on cells and tissues endogenously expressing the κ opioid receptor. The bulk of the article describes the studies performed after cloning of the opioid receptors on regulation and trafficking of the κ opioid receptors (KORs) expressed in various cell systems. Topics reviewed and discussed include biochemical mechanisms of desensitization, internalization and down-regulation, differences in the regulation of the rat and the human κ opioid receptors (rKOR and hKOR, respectively) and the structural basis for the species variations, differential abilities of agonists in inducing regulation of the hKOR, the relationship (or the lack thereof) of KOR internalization to activation of p42/p44 mitogen-activated kinase and to adenylyl cyclase superactivation, the role of the PDZ domain-containing protein NHERF-1/EBP50 in the trafficking of the hKOR and the relationship between receptor phosphorylation and tolerance development in mice. There are still questions remained to be answered. Among the issues to be resolved are the signals that direct the sorting of internalized hKORs to the recycling and degradation pathways, the recycling pathway(s) of the internalized hKOR, the molecular bases of differential regulation of the KORs by agonists and the occurrence of agonist-induced KOR internalization occur in vivo and, if so, its role in tolerance and dependence.     

AKAP3 selectively binds PDE4A isoforms in bovine spermatozoa

Cyclic AMP plays an important role in regulating sperm motility and acrosome reaction through activation of cAMP-dependent protein kinase A (PKA). Phosphodiesterases (PDEs) modulate the levels of cyclic nucleotides by catalyzing their degradation. Although PDE inhibitors specific to PDE1 and PDE4 are known to alter sperm motility and capacitation in humans, little is known about the role or subcellular distribution of PDEs in spermatozoa. The localization of PKA is regulated by A-kinase anchoring proteins (AKAPs), which may also control the intracellular distribution of PDE. The present study was undertaken to investigate the role and localization of PDE4 during sperm capacitation. Addition of Rolipram or RS25344, PDE4-specific inhibitors significantly increased the progressive motility of bovine spermatozoa. Immunolocalization techniques detected both PDE4A and AKAP3 (formerly known as AKAP110) in the principal piece of bovine spermatozoa. The PDE4A5 isoform was detected primarily in the Triton X-100-soluble fraction of caudal epididymal spermatozoa. However, in ejaculated spermatozoa it was seen primarily in the SDS-soluble fraction, indicating a shift in PDE4A5 localization into insoluble organelles during sperm capacitation. AKAP3 was detected only in the SDS-soluble fraction of both caudal and ejaculated sperm. Immunoprecipitation experiments using COS cells cotransfected with AKAP3 and either Pde4a5 or Pde4d provide evidence that PDE4A5 but not PDE4D interacts with AKAP3. Pulldown assays using sperm cell lysates confirm this interaction in vitro. These data suggest that AKAP3 binds both PKA and PDE4A and functions as a scaffolding protein in spermatozoa to regulate local cAMP concentrations and modulate sperm functions.     

Chemotype-selective Modes of Action of κ-Opioid Receptor Agonists

The crystal structures of opioid receptors provide a novel platform for inquiry into opioid receptor function. The molecular determinants for activation of the κ-opioid receptor (KOR) were studied using a combination of agonist docking, functional assays, and site-directed mutagenesis. Eighteen positions in the putative agonist binding site of KOR were selected and evaluated for their effects on receptor binding and activation by ligands representing four distinct chemotypes: the peptide dynorphin A(1–17), the arylacetamide U-69593, and the non-charged ligands salvinorin A and the octahydroisoquinolinone carboxamide 1xx. Minimally biased docking of the tested ligands into the antagonist-bound KOR structure generated distinct binding modes, which were then evaluated biochemically and pharmacologically. Our analysis identified two types of mutations: those that affect receptor function primarily via ligand binding and those that primarily affect function. The shared and differential mechanisms of agonist binding and activation in KOR are further discussed. Usually, mutations affecting function more than binding were located at the periphery of the binding site and did not interact strongly with the various ligands. Analysis of the crystal structure along with the present results provide fundamental insights into the activation mechanism of the KOR and suggest that “functional” residues, along with water molecules detected in the crystal structure, may be directly involved in transduction of the agonist binding event into structural changes at the conserved rotamer switches, thus leading to receptor activation.     

ZNF185‐derived peptide induces fertility suppression in mice

Zinc finger protein 185 (ZNF185) belongs to the ZNF family and is involved in male reproduction. However, it is unclear whether ZNF185 may be a target candidate for contraceptive vaccines. In this study, antigenic peptides derived from ZNF185 were prepared, and their immune contraceptive effects were investigated using mice. Results from enzyme‐linked immunosorbent assay (ELISAs) showed that peptide immunization induced an antibody titre increase that reached a peak in week 12. Peptide‐3 and peptide‐4 were then chosen for subsequent experiments. The results of the fertility assays showed that peptide immunization inhibited the mating and fertility rates of the mice, whereas there were no obvious changes in the number of pups per litter. Subsequently, epididymal sperm was analysed. The results demonstrated that the sperm count and sperm motility were significantly decreased in the peptide group, while the amount of abnormal sperm was significantly increased in the peptide‐3 group. The male reproductive organs were also evaluated. There were no obvious differences in testis or epididymal weights, in the diameters of the seminiferous tubules, or in the thicknesses of the seminiferous epithelium between the peptide group and the phosphate buffer saline (PBS) group. In addition, histological analysis indicated that there were no obvious pathologic changes in testis and epididymal histology in the peptide group; however, the number of spermatozoa present in the epididymal lumen of the peptide group was significantly decreased when compared with the PBS group. Our study demonstrates for the first time that peptides derived from ZNF185 may induce fertility suppression in mice without damaging reproductive organs. These peptides have the potential to be used as a male contraceptive vaccine.     

Freeze-thawing as the factor of spontaneous activation of spermatozoa motility in common carp (Cyprinus carpio L.)

In the present study, we investigated the possibility of spontaneous carp spermatozoa activation by freeze-thawing. To evaluate this, the parameters of spermatozoa motility percentage, velocity, ATP content level and fertility rate of sperm were used. The motility and velocity of spermatozoa activated by freeze-thawing were characterized by motile spermatozoa with a median value of 16% and a velocity of 98 μm/s. In addition, the motility and velocity of sperm from the thawed samples were significantly lower than in the control (median value of 100% for sperm motility and 175 μm/s for sperm velocity). Furthermore, a spontaneously activated spermatozoa motility terminated within five minutes post-thaw time. After freeze-thawing the ATP level significantly decreased with post-thaw time (46 nmol ATP/10⁹ and 10 nmol ATP/10⁹ at 25 s and 10 min after thawing, respectively). Fertility of spermatozoa was not significantly affected within 10 min post-thaw. On the other hand, the fertility of frozen-thawed sperm was significantly lower if compared to fresh sperm. We conclude that the freeze-thawing procedure spontaneously activated spermatozoa motility in common carp. However, this activation did not negatively affect the fertility of frozen-thawed sperm.     

Localization and regulation of plasma membrane Ca(2+)-ATPase in bovine spermatozoa

Calcium (Ca(2+)) signals, produced by the opening of plasma membrane entry channels, regulate a number of functions in spermatozoa such as capacitation and motility. The mechanisms of Ca(2+) removal from the sperm, required to restore resting [Ca(2+)](i), include plasma membrane Ca(2+)-dependent ATPase (PMCA) isoenzymes as well as a plasma membrane Na(+)-Ca(2+) exchanger. We have recently shown that bovine sperm PMCA is stimulated by PDC-109, a secretory protein of bovine seminal vesicles. To demonstrate the subcellular localization and regulation of bovine sperm PMCA, we have performed cell fractionation, enzyme activity determination and Western blotting studies of PMCA in spermatozoa removed from the cauda epididymidis of bull. Fractionation of sperm heads and tails resulted in a distinct association of ATPase activity with the tail membrane fraction. In vitro stimulation studies with PDC-109 using intact and fractionated sperm showed an increase in enzyme activity up to 105% in sperm tail membranes. Furthermore, thapsigargin inhibition did not alter the stimulatory effect of PDC-109 on ATPase activity, indicating that no sarco/endoplasmic reticulum Ca(2+)-ATPase (SERCA), but only PMCA isoenzymes are involved in this effect. Western blotting studies using a polyvalent PMCA antibody showed the exclusive presence of a 135 kDa band in the tail plasma membrane fraction. To elucidate whether or not the stimulatory effect was a direct one or indirectly mediated through PKA and PKC activation, PKA and PKC inhibitors, respectively, were used in the Ca(2+)-ATPase activity assays, which was followed by PDC-109 stimulation. The stimulatory effect of PDC-109 on PMCA was still observed under these conditions, while no phosphotyrosine proteins could be detected by Western blotting in sperm extracts following PDC-109 treatment. Co-immunoprecipitation studies, PDC-109 affinity chromatography as well as overlay blots failed to show a strong association of both PMCA and PDC-109, pointing to an indirect, perhaps phospholipid-mediated effect.