Induction of the acrosome reaction in dog sperm cells is dependent on epididymal maturation: the generation of a functional progesterone receptor is involved

In the current study we investigated the progesterone receptor exposure on the sperm from the testis and different parts of the epididymis, the relation to the sperm maturation stage, the functionality of the progesterone receptor and the capacity of sperm to undergo acrosome reaction. Exposed progesterone receptors on spermatozoa were detected using Progesterone-BSA conjugate labeled with fluorescein isothiocyanate (P-BSA-FITC) or a monoclonal antibody against progesterone receptor, C-262. Either progesterone or calcium ionophore was used to induce acrosome reaction. A high percentage (69 +/- 8%; mean +/- SD) of spermatozoa from the cauda epididymis showed P-BSA-FITC labeling at the onset of incubation, whereas only 0.1 +/- 1 and 4 +/- 2%, of spermatozoa from the testes, caput, and corpus epididymis, respectively, were labeled. There was no significant increase in P-BSA-FITC binding during the course of a 6 hr incubation. Treatment with either 10 microM progesterone or 5 microM calcium ionophore induced acrosome reaction in cauda epididymal sperm but not in testicular sperm, caput or corpus epipidymal sperm. It is concluded that the matured sperm of the dog from cauda epididymis and freshly ejaculated sperm demonstrate a functional membrane-bound progesterone receptor while less matured spermatozoa from the testicle, caput, and corpus epididymis fail to demonstrate such a receptor. Acrosome reaction of dog sperm can be induced using either progesterone or calcium ionophore; however, the maturation stages of spermatozoa influence this occurrence.     

Transformation of sperm histone during formation and maturation of rat spermatozoa.

Changes of chromosomal basic proteins of rats have been followed during transformation of spermatids into spermatozoa in the testis and during maturation of spermatozoa in the epididymis. Rat testis chromatin has been fractionated on the basis of differing sensitivity to shearing, yielding a soluble fraction and a condensed fraction. The sperm histone is found in the condense fraction. Somatic-type histones are found in both fractions. The somatic-type histones in the condensed fraction contains much more lysine-rich histone I, than does the somatic-type histones in the soluble fraction. This may suggest that the lysine-rich histone I is the last histone to be displaced during the replacement of somatic-type histones by sperm histone. After extensive shearing followed by sucrose centrifugation, the condensed portion of testis chromatin can be further fractionated into two morphologically distinctive fractions. One is a heavy fraction possessing an elongated shape typical of the head of late spermatids. The other is a light fraction which is presumably derived from spermatids at earlier stages of chromatin condensation and which is seen as a beaded structure in the light microscope. Sperm histone of testis chromatin can be extractable completely by guanidinium chloride without a thiol, wheras 2-mercaptoethanol is required for extraction of sperm histone from caput and cauda epididymal spermatozoa. The light fraction of the condensed testis chromatin contains unmodified and monophospho-sperm histone. The sperm histones of the heavy fraction is mainly of monophospho and diphospho species, whereas unmodified and monophosphosperm histones are found in caput and cauda epididymal spermatozoa. Labeling of cysteine sulfhydryl groups of sperm histone releases by 2-mercaptoethanol treatment shows that essentially all of the cysteine residues of sperm histone in testis chromatin are present as sulfhydryl groups, while those of sperm histone isolated from mature (cauda epididymal) spermatozoa are present as disulfide forms and approximately 50% of the cysteine residues of sperm histone obtained from caput epididymal spermatozoa are in disulfide forms. These results suggest that phosphorylation of sperm histone is involved in the process of chromatin condensation during transformation of spermatozoa in the epididymis.     

Dynamics of the thiol status of rat spermatozoa during maturation: analysis with the fluorescent labeling agent monobromobimane

Mammalian spermatozoa undergo maturation as they pass through the epididymis. Maturation is accompanied by the oxidation of thiols to disulfides. Disulfides are probably involved in sperm chromatin condensation and tail structure stabilization. In this work, we used the fluorescent thiol-labeling agent monobromobimane to determine the changes occurring in thiols and disulfides in rat sperm heads and tails during maturation. Spermatozoa were obtained from testis, epididymis (caput, corpus, cauda, and vas deferens), and ejaculate. Intact spermatozoa were labeled with monobromobimane, with or without pretreatment with dithiothreitol. Labeling was evaluated microscopically, and quantitative analysis was carried out spectrofluorimetrically with labeled globin used as a standard. Samples were also analyzed by gel electrophoresis. The total amount of thiols and disulfides remained the same during the entire period of sperm maturation (26 +/- 0.5 nmoles thiols + disulfides/10(6) spermatozoa). However, the reactive thiols decreased markedly between the corpus and the cauda (from greater than 90% of total in testis and 75% in corpus to about 25% in cauda), with little or no further change in vas deferens and ejaculated sperm. Trypsin treatment followed by sucrose gradient was used to separate the heads from the tails. Thiols comprised 84% of the total SH + SS in the heads and 74% in the tails of caput spermatozoa, decreasing to 14% and 45%, respectively, in cauda sperm. Thus, the decrease in reactive thiols involved both heads and tails-oxidation to disulfides being very marked in the head. Electrophoresis revealed that oxidation of thiols to disulfides occurred in many protein fractions during maturation in the epididymis.     

Effect of dilauroylphosphatidylcholine liposomes on motility, induction of the acrosome reaction, and subsequent egg penetration of ram epididymal sperm

The effects of dilauroylphosphatidylcholine (PC12) on ram epididymal sperm motility, acrosome reaction (AR) induction, plasma membrane permeability, mitochondrial function, and sperm penetration into zona-free hamster eggs were determined. PC12 (50 microM) induced cell motility in caput and cauda sperm, as measured by subjective estimation and automated motility analysis. Motion parameters of treated caput sperm approached those of control ejaculated sperm. Flow cytometric analysis revealed that membrane permeability to propidium iodide and mitochondrial uptake of rhodamine 123 changed during epididymal transit. PC12 induced the AR in sperm from all epididymal regions relative to control incubated sperm (caput 17% vs. control 8%; corpus 29% vs. control 13%; proximal cauda 48% vs. control 4%; distal cauda 51% vs. control 9%). After PC12 treatment, egg penetration by sperm was increased for sperm from the corpus (corpus 7% vs. control 0%) and cauda (proximal 48% vs. control 0%; distal 51% vs. control 0%), but not for caput sperm (caput 0% vs. control 0%). These studies establish that some sperm in each region of the epididymis possess the capacity for movement and the AR. Caput sperm, however, were unique in that they could not penetrate eggs. Additional maturational changes must occur in the caput and/or corpus epididymidis before penetration capacity can be expressed.     

DNA stability and thiol-disulphide status of rat sperm nuclei during epididymal maturation and penetration of oocytes.

DNA stability and thiol-disulphide status of rat sperm nuclei was observed in vivo during maturation in the epididymis and penetration of oocytes. When spermatids and spermatozoa were stained with acridine orange after fixation with acetic alcohol, the red/green fluorescence ratio observed under a confocal microscope was not different between spermatids (3.81 +/- 0.16) and testicular spermatozoa (4.03 +/- 0.34), and then decreased sharply (p < 0.01) as the spermatozoa descended the epidymis to the caput epididymis (1.13 +/- 0.03). However, the ratio was not different among corpus (0.69 +/- 0.01), cauda epididymis (0.68 +/- 0.11) and ejaculated spermatozoa (0.63 +/- 0.01). On the other hand, when spermatozoa were labelled with monobromobimane (mBBr), the fluorescence intensities gradually decreased (p < 0.01) during passage of spermatozoa from testis (4.74 +/- 0.16) through epididymis (caput, 2.72 +/- 0.08; corpus, 1.07 +/- 0.03; cauda, -0.05 +/- 0.05; ejaculated, 0.08 +/- 0.03). The acridine orange red/green fluorescence ratio increased (p < 0.01) during zona penetration (binding sperm, 0.52 +/- 0.09; perivitelline sperm, 0.64 +/- 0.16) and sperm decondensation (decondensed sperm, 0.69 +/- 0.12). When spermatozoa in the perivitelline space were labelled with mBBr, the fluorescence was detected. These results demonstrate that DNA stability against acid appears to be ahead of the oxidation of protamine during sperm maturation in the epididymis and is an initial event of the unpackaging process in rat genome occurring during or just after zona penetration but before ooplasm penetration.     

Epididymal maturation and ejaculation are key events for further in vitro capacitation of boar spermatozoa

Mammalian spermatozoa acquire functionality during epididymal maturation, and the ability to penetrate and fertilize the oocyte during capacitation. The aim of this study was to assess the effects of epididymal maturation, ejaculation and in vitro capacitation on sperm viability, acrosome integrity, mitochondrial activity, membrane fluidity, and calcium influx, both as indicators of capacitation status and sperm motility. Results indicated that boar spermatozoa acquired the ability to move in the epididymal corpus; however, their motility was not linear until the ejaculation. Epididymal spermatozoa showed low membrane fluidity and intracellular calcium content; ejaculation led to an increased calcium content, while membrane fluidity showed no changes. Acrosome integrity remained constant throughout the epididymal duct and after ejaculation and in vitro capacitation. The frequency of viable spermatozoa with intact mitochondrial sheath was higher in caput and ejaculated samples than in corpus and cauda samples, whereas the frequency of spermatozoa with high membrane potential was significantly lower in cauda samples. In vitro capacitation resulted in a decreased frequency of viable spermatozoa with intact mitochondrial sheath and an increased frequency of spermatozoa with high membrane potential in ejaculated samples. These results indicated that both epididymal maturation and ejaculation are key events for further capacitation, because only ejaculated spermatozoa are capable of undergoing the set of changes leading to capacitation.     

Lectin-binding sites on the plasma membranes of rabbit spermatozoa: Changes in surface receptors during epididymal maturation and after ejaculation

Modifications in rabbit sperm plasma membranes during epididymal passage and after ejaculation were investigated by used of three lectins: concanavalin A (Con A); Ricinus communis I (RCA(I)); and wheat germ agglutinin (WGA). During sperm passage from caput to cauda epididymis, agglutination by WGA drastically decreased, and agglutination by RCA(I) slightly decreased, although agglutination by Con A remained approximately unchanged. After ejaculation, spermatozoa were agglutinated to a similar degree or slightly less by Con A, WGA, and RCA(I), compared to cauda epididymal spermatozoa. Ultrastructural examination of sperm lectin-binding sites with ferritin- lectin conjugates revealed differences in the densities of lectin receptors in various sperm regions, and changes in the same regions during epididymal passage and after ejaculation. Ferritin-RCA(I) showed abrupt changes in lectin site densities between acrosomal and postacrosomal regions of sperm heads. The relative amounts of ferritin-RCA(I) bound to heads of caput epididymal or ejaculated spermatozoa. Tail regions were labeled by ferritin RCA(I) almost equally on caput and cauda epididymal spermatozoa, but the middle-piece region of ejaculated spermatozoa was slightly more densely labeled than the principal-piece region, and these two regions on ejaculated spermatozoa were labeled less than on caput and cuada epididymal spermatozoa. Ferritin-WGA densely labeled the acrosomal region of caput epididymal spermatozoa, although labeling of cauda epidiymal spermatozoa was relatively sparse except in the apical area of the acrosomal region. Ejaculated spermatozoa bound only a few molecules of ferritin-WGA, even at the highest conjugate concentrations used. Caput epididymal, but not cauda epididymal or ejaculated spermatozoa, bound ferritin-WGA in the tail regions. Dramatic differences in labeling densities during epididymal passage and after ejaculation were not found with ferritin-Con A.     

Confocal microscopy and image analysis indicates a region-specific relation between active caspases and cytoplasm in ejaculated and epididymal sperm

Previously, it was suggested a relation between the presence of apoptosis markers with cytoplasm in mammalian sperm. In this work, flow cytometry, confocal microscopy and image analysis were used to analyze the relationship between active caspase-3 and -7 and intracellular esterases expression in ejaculated or epididymal ram sperm. Sperm obtained from ejaculates from the caput, corpus, or cauda of the epididymis were treated with an inhibitor of active caspase-3 and -7 and a marker of cytoplasmic esterases. Additionally, ejaculated sperm were incubated for one, two, or three hours before evaluation for active caspases. Sperm subpopulations positive for active caspases and/or intracellular esterases were detected by flow cytometry and confocal microscopy; however, image analysis of confocal images showed that the correlation between active caspases and cytoplasmic esterases in sperm is region-specific. Lower values of Spearman correlation coefficients were found when whole sperm or head sperm was analyzed; however, a high correlation was observed for midpiece sperm. Incubation of sperm for two or three hours promoted the autoactivation of caspases. It has been suggested that the presence of apoptotic markers in sperm are related with a process of abortive apoptosis and with errors during spermiogenesis. Our results permit us suggest that the origin of the relationship between active caspases and cytoplasmic esterases is due to differentiation errors occurring during spermiogenesis because the percentages of sperm with active caspases are not different in the caput, corpus, or cauda of the epididymis. In this study we demonstrate that existing sperm subpopulations can express active caspases and intracellular esterases and that the correlation between these molecules is high in midpiece sperm.     

Measurement and manipulation of cytoplasmic free calcium of ram and boar spermatozoa using quin 2

The highly selective fluorescent Ca2+ indicator 'quin 2' has been loaded into ram and boar spermatozoa as the acetoxymethyl ester, 'quin 2/AM', which is hydrolysed and trapped in the cytoplasm. Loadings of several mM were not toxic to spermatozoa as judged by motility. Fluorescence measurements (mean +/- S.E.M.) indicated a normal cytoplasmic free-calcium concentration, [Ca2+]i, of 193 nM +/- 0.2 (n = 10) for ejaculated ram sperm, 175 nM +/- 3.9 (n = 10) for cauda epididymal boar sperm and 105 nM +/- 10 (n = 10) for the caput sperm. After cold shock ejaculated ram and cauda epididymal boar sperm did not retain quin 2, due presumably to structural damage. However, cold shocked caput boar sperm could be readily loaded with quin 2 and had a [Ca2+]i similar to control sperm. Sodium azide, propranolol and caffeine did not affect the [Ca2+]i of ram and boar sperm, however theophylline, dibutyryl c-AMP and La3+ significantly reduced it. The inhibitors rotenone and antimycin A, and the uncouplers 2,4-DNP and CCCP caused a transient elevation of [Ca2+]i, most likely resulting from release of mitochondrial calcium. The increased [Ca2+]i following addition of the ionophore A23187, was highly pH dependent in ram spermatozoa and it was critical to increase the pH of the medium above 7.5; the increase in [Ca2+]i was apparently not dependent on the oxidative metabolism of the sperm as addition of the uncouplers 2,4-DNP and CCCP had no effect on [Ca2+ )i. Addition of filipin to ram and boar sperm resulted in a large increase in [Ca2+]i but addition of filipin to ionophore-treated sperm caused [Ca2+]i to fall well below control levels.     

Direct binding of boar ejaculate and epididymal spermatozoa to porcine epididymal epithelial cells is also needed to maintain sperm survival in in vitro co-culture

The aim of the present study was to compare the influence of cultured epididymal epithelial cells (EEC) from corpus, caput or cauda, oviductal epithelial cells (OEC) and non-reproductive epithelial cells (LLC-PK1) on function and survival of epididymal and ejaculated spermatozoa, in the latter case to determine whether such influence differed between morphologically normal and abnormal spermatozoa. For this purpose, either spermatozoa were directly co-cultured with EEC from caput, corpus, or cauda, OEC and LLC-PK1 cells (experiment 1) or a membrane-diffusible insert was included in these co-cultures (experiment 2). EEC cultured from the three epididymal regions did not differently affect the sperm parameters. Morphologically normal spermatozoa presented a higher ability to bind EEC, OEC, and LLC-PK1 than abnormal spermatozoa with cytoplasmic droplets or with tail/head malformations. Epididymal spermatozoa were more able to bind EEC during the first 24 h of co-culture, while ejaculated spermatozoa presented a higher capacity to bind OEC between 30 min and 3 h of co-incubation. In all cases, the ability to bind to epithelial cells was higher when they were co-cultured with EEC and OEC than with LLC-PK1. After 2 h of co-culture, the viability of epididymal spermatozoa was better maintained when they bound EEC than when they bound OEC. Conversely, the viability of ejaculated spermatozoa was better maintained when bound OEC than when bound EEC after 24 and 48 h of co-culture. Our work, apart from corroborating the involvement of morphologically normal spermatozoa in the formation of sperm reservoir, highlights the importance of direct contact spermatozoa-EEC in maintaining the sperm survival in in vitro co-culture, and also suggests that a specific binding between EEC and epididymal spermatozoa exists.     

Changes in binding of a 27-kilodalton chimpanzee cauda epididymal protein glycoprotein component to chimpanzee sperm

Motility patterns of caput epididymal chimpanzee sperm, caput epididymal chimpanzee sperm incubated in vitro with chimpanzee cauda epididymal fluid, and cauda epididymal chimpanzee sperm were assessed quantitatively. Sperm recovered from the caput epididymis showed no motility, whereas sperm recovered from cauda epididymis showed progressive forward motility. After incubation in cauda fluid, approximately 25% of caput epididymal sperm showed some motile activity. Electrophoretic analysis of ¹²⁵I-labeled sperm plasma membrane preparations revealed that the surface of caput epididymal sperm, incubated in cauda fluid, was modified by the appearance of a major protein-glycoprotein surface component with an apparent molecular weight of 27 kilodaltons (kD). THis 27-kD component was not detected on caput epididymal sperm incubated in buffer or in caput fluid. However, it was present in cauda fluid and on cauda epididymal sperm. Binding to caput epididymal sperm was cell specific in that chimpanzee erythrocytes incubated in cauda fluid did not bind this 27-kD cauda fluid component. Motility patterns of ejaculated chimpanzee sperm and of ejaculated chimpanzee sperm incubated in the uterus of adult female chimpanzees also were assessed quantitatively. Ejaculated sperm showed progressive forward motility, whereas in utero incubated ejaculated sperm showed hyperactivated motility typical of capacitated sperm. Electrophoretic analysis of ¹²⁵I-labeled sperm plasma membrane preparations revealed the loss of a 27-kD component from the surface of ejaculated sperm after in utero incubation. No significant change in the ¹²⁵I-distribution pattern was detectable when ejaculated sperm were incubated in buffer. These results suggest that the lumenal fluid component, which becomes adsorbed to the surface of chimpanzee sperm during maturation in the epididymis and which is removed from the surface of mature chimpanzee sperm in the female reproductive tract, affects sperm motility.     

Differences between epididymal and ejaculated sperm characteristics in donkey

Spermatozoa acquire their motility and fertilizing ability during their passage through the epididymal canal. In the epididymal caput and corpus spermatozoa undergo several biochemical and metabolic changes while the cauda of the epididymis should be considered as the primarily site for storage of the spermatozoa. In the horse spermatozoa from cauda epididymis were collected and frozen, and the fertility of semen assessed. However, no studies have detailed semen characteristics of spermatozoa collected from the cauda epididymis in the jackass. In this study sperm characteristics of spermatozoa in the cauda epididymis of the donkey was reported and a comparison with ejaculated spermatozoal characteristics was performed. Samples from 10 Martina Franca jackasses were collected and analyzed for viability (Propidium iodide/Sybr-14? fluorescent stain), mitochondrial activity (Mitotraker? fluorescent stain), objective motility characteristics (by Computer Assisted Sperm Analyzer - CASA) and morphology. A higher viability and mitochondrial activity in the cauda epididymis samples were reported in this paper. Samples reported in this paper were identified and the percentage of total and progressive spermatozoa was comparable, but trajectories were more rapid (higher VCL) with less progressiveness (higher ALH and lower STR and LIN) in the cauda epididymis. Sperm morphology showed a pronounced variability between jackasses, with comparable values for all morphological subclasses. In this study the loss of the distal cytoplasmic droplets happen close to or after ejaculation because the percentage fell to nearly 0% after ejaculation. As suggested for bulls, the presence of a similar percentage in sperm with proximal cytoplasmic droplet in epididymal and ejaculated semen is likely to indicate a failure in the maturation process.     

Flow cytometric analysis of rodent epididymal spermatozoal chromatin condensation and loss of free sulfhydryl groups

Flow cytometric measurements were made on acridine orange (AO) and 7-diethylamino-3-(4'-maleimidylphenyl)-4-methyl-coumarin (CPM)-stained epididymal- and vas deferens-derived spermatozoal nuclei to follow the course of chromatin condensation and oxidation of free sulfhydryl groups, respectively, during passage through mouse and rat posttesticular reproductive tracts. Alterations of mouse and rat spermatozoal chromatin during transition from a testicular elongated spermatids to epididymal caput spermatozoa resulted in a threefold loss of DNA stainability with AO. Passage of spermatozoa from the caput to corpus epididymis was accompanied by an approximate 15% loss of DNA stainability, which was maintained at that level throughout passage into the vas deferens. AO stainability of epididymal spermatozoal nuclei was generally independent of -SH group stainability. CPM stainability of rat spermatozoal nuclei free -SH groups was 83%, 18%, and 11% of caput spermatozoal values for corpus, cauda epididymis, and vas deferens, respectively. Comparable values for mice were 69%, 20%, and 18%. CPM stainability was relatively homogeneous for these mouse and rat reproductive tract regions, except mouse corpus epididymis spermatozoal nuclei stained very heterogeneously. Rat spermatozoa detained by ligature up to 7 days in the caput, corpus, and cauda epididymi had CPM staining values equal to or below those of normal vas spermatozoa, indicating that disulfide (S-S) bonding is intrinsic to the spermatozoa and is independent of the epididymal environment. These data suggest that chromatin condensation and loss of spermatozoal DNA stainability during passage from the testis to the vas deferens are independent of S-S bonding.(ABSTRACT TRUNCATED AT 250 WORDS)     

Immunocytochemical localization of nuclear protamine in boar spermatozoa during epididymal transit

Protamine was specifically demonstrated in boar spermatozoa collected from the rete testis, caput, corpus and cauda epididymidis and the ejaculate by immunoelectron microscopy, using anti-boar or anti-ram protamine antisera and an indirect post-embedding immunogold technique. Spermatozoa from all collection sites stained after incubation although with different degrees of labelling. Controls were negative. Labelling increased from the rete testis towards the epididymal corpus, where it was most intense, decreasing sharply thereafter. The weakest binding of the assayed antibodies was obtained in the ejaculated spermatozoa but it could be reversed by in-vitro induction of chromatin decondensation with sodium dodecyl sulphate and the metal-chelating EDTA. The finding of a significant decrease in the immunolabelling detected from the corpus epididymidis onwards indicates a critical point for the interaction between DNA and the protamines in boar spermatozoa during the epididymal maturation.     

Changes in rat sperm membrane glycosidase activities and carbohydrate and protein contents associated with epididymal transit

Rat spermatozoa were recovered from the caput, corpus, and cauda epididymides and assayed for glycosidase activity, total nonamino (neutral) carbohydrate, and protein content. The activities of beta-glucosidase, beta-galactosidase, beta-N-acetylglucosaminidase, and beta-N-acetylgalactosaminidase were fluorometrically assayed in spermatozoa and membrane-enriched fractions. Except for beta-glucosidase, the activities of the glycosidases based on protein content were greatest in whole sperm and membrane-enriched fractions obtained from the cauda epididymides. Based on sperm concentration, however, glycosidase activities increased proceeding from the caput to the corpus epididymides, then declined from the corpus to the cauda epididymides. Analyses of nonamino carbohydrate and protein content based on sperm number indicated regional trends similar to those of glycosidase activity. Total nonamino carbohydrate and protein content were highest in corpus sperm, and lowest in cauda sperm. These data indicate major quantitative changes in cell surface carbohydrate as spermatozoa traverse the epididymis. A positive correlation for the membrane-enriched fraction between increasing glycosidase activity and decreasing carbohydrate and protein content suggests that glycosidases may play a significant role in modifying the spermatozoon surface during epididymal transit and maturation.     

Distribution of carnitine and acylcarnitine in the hamster epididymis and in epididymal spermatozoa during maturation

The highest levels of carnitine and acylcarnitine were found in the cauda epididymidis, and spermatozoa from the cauda contained greater amounts of total carnitine (free carnitine plus acylcarnitine) than those removed from the corpus or caput epididymidis. Spermatozoa from the distal cauda contained significantly greater amounts of both free and total carnitine than those removed from the proximal cauda epididymidis. The acylcarnitine:carnitine ratio was 1.7 and 0.37 in caput and cauda spermatozoa, respectively and 1.7 and 1.3 in caput and cauda fluid, respectively. It is suggested that the accumulation of carnitine is involved in sperm maturation and that acylcarnitine serves as an energy substrate for epididymal spermatozoa.     

Changes in chromatin structure of boar late spermatids to mature spermatozoa by using modification with dansyl chloride

Changes in the chromatin structure of boar late spermatids maturing to spermatozoa were studied by chemical modification of their nuclei with dansyl (Dns) chloride. Protamine was isolated from the dansylated boar spermatid and sperm nuclei, and its dansylated sites and degrees of dansylation were determined by sequence analysis. The N-terminal Ala-1, Tyr-3 and Tyr-42 of the protamine molecule in cauda epididymal sperm nuclei were dansylated 27%, 22% and 40%, respectively, whereas the respective residues in late spermatid nuclei were about 1.5-times as reactive as those in cauda epididymal sperm nuclei. However, the dansyl ratio of Tyr-3 to Tyr-42 remained unchanged from the late spermatid to mature sperm nuclei. SDS treatment did not affect the reactivity of cauda epididymal protamine and that of Ala-1 of caput epididymal protamine, but raised that of Tyr-3 and Tyr-42 of caput epididymal protamine by a factor of about 1.5. As a result of the SDS treatment, caput epididymal protamine came to have almost the same reactivity as late spermatid protamine. These facts suggest that the fundamental structure, in terms of DNA-protamine interaction, of sperm chromatin was already formed at the stage of the late spermatid, and then during epididymal transit the sperm chromatin was more tightly condensed, with increasing disulfide cross-links, thereby acquiring insensitivity towards the SDS-treatment.     

Protein thiols in spermatozoa and epididymal fluid of rats.

Thiol (SH) oxidation to disulphides (SS) is thought to be involved in sperm chromatin condensation and tail structure stabilization, which occur during maturation of spermatozoa. Previously developed procedures, using the fluorescent labelling agent monobromobimane (mBBr), enabled us to study the thiol-disulphide status of spermatozoa. Electrophoretic separation of labelled sperm proteins from the caput and cauda regions showed that during maturation thiol oxidation occurs in many protein fractions from the tail and that the magnitude of oxidation differs between proteins. Among the protein bands, one major band (MPB), probably a dense fibre constituent, is quantitatively prominent. N-Ethylmaleimide (NEM) or mBBr alkylation (of intact spermatozoa) changes the mobility of the caput MPB, but not that of the cauda MPB. The results indicated that the altered mobility of MPB is mainly due to a change in its shape, possibly resulting from the alkylation of a few critical SH groups. Epididymal fluid proteins contain both SH and SS. The thiol and disulphide content of the various epididymal proteins appears similar, although some diminution in fluorescence is seen in epididymal fluid proteins from the cauda region as compared with those from the caput region. The prominent changes in thiol status occur in the spermatozoa.     

Characterization of cAMP-dependent protein kinase and its endogenous substrate proteins in ram testicular,cauda epididymal,and ejaculated spermatozoa

Mammalian spermatozoa have been shown to possess cAMP-dependent protein kinase (A-PK) and endogenous substrate proteins for this enzyme. A study of the kinase system was undertaken to determine changes that may be associated with sperm maturation by comparing immature testicular with mature cauda epididymal and ejaculated spermatozoa. Absolute activity levels of A-PK, stimulated over a concentration range of 10^?9 to 10^?5 M, was significantly greater in testicular than ejaculated spermatozoa. At an optimal cAMP concentration (10^?6M), testicular spermatozoa had significantly greater amounts of cAMP-dependent protein kinase activity than did cauda or ejaculated spermatozoa. Electrophoretic analysis and autoradiography of NP-40-soluble protein extracts revealed the presence of two substrate proteins (M_r = 62,000 and 44,000) in all three types of spermatozoa. In addition, a phosphoprotein (M_r = 20,000) was detected in mature cauda and ejaculated but not immature testicular spermatozoa. The phosphorylation of these substrate proteins was both dose and time dependent. Examination of cyclic AMP phosphodiesterase activity revealed significantly higher levels in testicular than ejaculated spermatozoa. These results indicate marked alterations in cAMP-modulated protein phosphorylation and dephosphorylation systems in ram spermatozoa during epididymal maturation.