Structure, cytoskeleton, and development of the acrosome of Platycleis albopunctata (Orthoptera: Tettigoniidae).

The acrosome of Platycleis albopunctata (Orthoptera: Tettigoniidae) is relatively large and complex, consisting of an apical vesicle and two large wing-like extensions that give the spermatozoon the shape of an arrow. The wings have actin microfilaments and microtubules and are covered with a noticeable extracellular material. Actin filaments are present in the acrosome when it first appears in spermatid stages. The acrosome and the acrosomal attachment to the nucleus are more resistant than other structures to the reducing agents DTT and SDS. At the end of spermiogenesis, groups of spermatozoa juxtapose their sperm heads and become joined to form a spermatodesm encircled by an amorphous material. Treatment with the ionophore A23187 rapidly disrupted acrosomes of the free gametes, but acrosomes from spermatozoa contained in the spermatodesm were not disassembled. Packaging of sperm in a spermatodesm appears to protect the acrosome.     

First attempt to characterize 3H-fucose acrosomal label in spermatoza

Acrosomes of rabbit spermatozoa were labelled by tritiated fucose introduced into the cells during spermatogenesis. The labelling was analysed simultaneously by autoradiography and biochemically. In compact intact acrosomes the labelling was confined strictly to the acrosomal region of the sperm head. In swollen and detached acrosomes the autoradiographic grains were associated mostly with the acrosomal cap. Only in some cells a small proportion of radioactivity was detected to be associated with denuded sperm heads. In acrosomal extracts a considerable share of radioactivity coincided with gel filtration fractions showing esterase activity (BAEE-N-alpha-benzoyl-L-agrinine ethyl ester splitting), akin to that exhibited by acrosin.     

Influence of partial deletion of the Y chromosome on mouse sperm phenotype

Two congenic strains of mice (control, B10.BR/SgSn; mutant, B10.BR-Ydel/Ms with partial deletion of the Y chromosome) were examined. In control males, 22.6% of spermatozoa had abnormal heads; in mutant males, there were 64.2%, the most common being heads with flat acrosomes. Sodium dodecyl sulphate polyacrylamide gel electrophoresis of mature sperm proteins, followed by acrosin assay and acrosome silver staining, revealed a reduced concentration of acrosin in acrosomal caps in 35.8% of the spermatozoa in mutant males. Electron microscope analysis showed that some of the round, early spermatids in the mutants had normally formed acrosomal caps but lacked the proacrosomal granule and had no, or only scarce, acrosomal material. These observations indicate that formation of the acrosomal cap is controlled separately from the synthesis of the acrosomal material and suggest that some factors linked on the Y chromosome are involved in the control of acrosome development.     

First attempt to characterize 3H-fucose acrosomal label in spermatozoa

Summary Acrosomes of rabbit spermatozoa were labelled by tritiated fucose introduced into the cells during spermatogenesis. The labelling was analysed simultaneously by autoradiography and biochemically. In compact intact acrosomes the labelling was confined strictly to the acrosomal region of the sperm head. In swollen and detached acrosomes the autoradiographic grains were associated mostly with the acrosomal cap. Only in some cells a small proportion of radioactivity was detected to be associated with denuded sperm heads. In acrosomal extracts a considerable share of radioactivity coincided with gel filtration fractions showing esterase activity (BAEE-Nalpha-benzoyl-l-arginine ethyl ester splitting), akin to that exhibited by acrosin.     

Viability and Acrosome Staining of Bull, Boar and Rabbit Spermatozoa

A practical and reliable staining procedure was developed to distinguish the viability and acrosomal status of bull, boar and rabbit spermatozoa. The first stain with trypan blue or Congo red is rapid and avoids artifacts. This stain is precipitated by neutral red during the 2 min required for fixation. The precipitate gives a high contrast black color, resistant to the subsequent rinsings and persists during the time required for staining the acrosome with Giemsa. Ten classes of spermatozoa are distinguished (live or dead with intact acrosomes, loose acrosomes, damaged acrosomes, no acrosome, or with no acrosome and no postacrosomal ring). The intact acrosomes are purple, the loose acrosomes are dark lavender and the damaged acrosomes are pale lavender. The anterior part of the head of live spermatozoa with no acrosome is white or light pink and the same area of dead spermatozoa is white or pale gray. The postacrosomal ring is red. The postacrosomal area of the head of live spermatozoa is white or light pink and the same part of dead spermatozoa is black, dark violet or gray. The procedure did not give satisfactory results for stallion spermatozoa.     

Immunocytochemical localization of a folicle stimulating hormone-like molecule in the testis.

A follicle-stimulating hormone (FSH)-like molecule was localized in normal adult rat testes as well as testosterone-treated hypophysectomized rat tests with an unlabeled antibody (anti-FSH), peroxidase-antiperoxidase complex technique. Anti-FSH bound specifically to ultrathin sections of acrosomes of spermatids and intranuclear bodies of early spermatids. Quantitation of staining intensity demonstrated that FSH, used as an absorbing antigen, would significantly reduce this binding. There was less anti-FSH binding to the acrosomes of spermatozoa in the body and tail of the epididymis as compared to the less mature germ cells located in the testis and head of the epididymis. The acrosomal and nuclear staining of spermatids taken from hypophysectomized animals was similar to staining observed in sham injected animals. Taken together, these results suggest that there is a molecule within the acrosome that is immunologically similar to FSH. Most importantly, these results emphasize the importance of conducting physiologic experiments in conjunction with immunocytochemical studies.     

Visualization and characterization of the acrosome reaction of human spermatozoa by immunolocalization with monoclonal antibody

A monoclonal antibody generated against hamster epididymal spermatozoa and recognizing an antigen within the acrosome was used in conjunction with FITC-antimouse immunoglobulin as a marker of the human acrosome during sperm development, capacitation, and the acrosome reaction. The specificity of binding of the monoclonal antibody was assessed using immunolocalization by epi-fluorescence and electron microscopy. Immunofluorescence revealed that antibody bound over the entire anterior acrosome in hamster and human spermatozoa. Ultrastructural localization indicated that antigen was predominantly present on the inner face of the outer acrosomal membrane and within the acrosomal content. Qualitative specificity was studied using a highly purified preparation of hamster acrosomes in an enzyme-linked immunosorbent assay. Since the antibody rapidly visualized human acrosomes, it was used to detect abnormal acrosome morphology of mature spermatozoa and to mark spermatids present in the ejaculate. During incubation in capacitating medium, changes in the immunofluorescence of live or methanol fixed spermatozoa were correlated with incubation interval and the ability of spermatozoa to fuse with zona-free hamster oocytes. Spermatozoa bound to zona-free hamster oocytes displayed no fluorescence, confirming that acrosome loss occurred before spermatozoa attached to the vitellus.     

Ultrastructural spermatid and sperm morphology in Poecilocerus pictus (Fab.) with a reference to spermeiophagic cells in the testis and sperm duct

Electron microscopical studies were carried out on spermatid and sperm structure in P. pictus. The spermatid nuclear envelope possesses pores and is surrounded by microtubules which disappear on metamorphosis to sperm though centriolar adjunct, and its corresponding centriole comprising the basal body for flagellum. remains persistent in both. The mitochondria are arranged as two fused bodies with prominent cristae flanking the central axoneme and also contain curved end feet. In axoneme the microtubular complex is comprised of 9 + 9 (doublet) + 2 tubules + nine coarse fibres and also reveals nine radial links with electron-dense link heads. In P. pictus an alteration in temperature range, ambient for its rearing and generation of fertile spermatozoa, induces the production of sterile sperms which are characterized by multiple axonemes and mitochondrial bodies engirdled by a common plasma membrane. Presence of phagocytic cells is also an essential feature of its testis and vas deferens. These spermeiophagic cells engulf the neighbouring spermatozoa as evidenced by the fragments of axoneme, nuclei, and acrosomes in their cytoplasm.     

The status of acrosomal caps of hamster spermatozoa immediately before fertilization in vivo

Adult female golden hamsters were induced to superovulate. When they were mated several hours prior to ovulation or artificially inseminated about the time of ovulation, nearly 100% of their eggs were subsequently fertilized monospermically. During the progression of fertilization when the eggs were still surrounded by compact cumulus oophorus, the contents of the ampullary region of the oviducts were collected and spermatozoa moving in the ampullary fluid, within the cumulus and on/in the zonae pellucidae of unfertilized eggs, were examined by light and electron microscopy to evaluate the status of their acrosomal caps. Most spermatozoa swimming in the ampullary fluid had apparently intact acrosomal caps, while the vast majority moving within the cumulus had distinctly modified acrosomal caps. Most spermatozoa that had passed through the cumulus and reached the zona surfaces had remnants of their acrosomal caps (“acrosomal ghosts”). When the ghosts were present around the sperm heads on the zona, the heads pivoted about a point roughly corresponding to the places where the ghosts were located. The ghosts seemed to firmly attach to the zona surfaces, then were split open by the sperm heads and left behind as the sperm heads advanced into the zona. A few spermatozoa on the zona surfaces had no acrosomal ghosts (at least not detectable by light microscopy). In this case, the sperm head pivoted about either the inner acrosomal membrane or the equatorial segment of the acrosome. In no instance were spermatozoa with intact acrosomal caps found on zona surfaces. We infer from these observations that most spermatozoa in vivo initiate their acrosome reactions while they are advancing through the cumulus. When they arrive at the zona surfaces, acrosomal ghosts are generally present on the sperm heads. These ghosts appear to hold sperm heads to zona surfaces as well as to restrict the direction of advancement of sperm head through the zona. In a minority of cases, ghostless spermatozoa reach the zona surfaces. As these spermatozoa appear to be able to penetrate the zona successfully, structures other than the acrosomal ghost (ie, the inner acrosomal membrane and the plasma membrane over the equatorial segment of the acrosome) may also attach to zona surfaces before spermatozoa penetrate into the zona.     

Proteolytic activity of guinea pig spermatozoa after induction of the acrosomal reaction in vitro

After inducing the acrosomal reaction in guinea pig spermatozoa in vitro, the sperm were tested for proteolytic activity by applying them to membranes of fixed gelatin. One to 5% of them showed slight evidence of proteolytic activity, while the rest were completely negative. Sperm that had retained their acrosomes throughout the incubation period displayed intense proteolytic activity. These results suggest that proteinases may be lost from spermatozoa as a result of the acrosomal reaction.     

Cytochemical characterization of glycoproteins in the developing acrosome of rats. An ultrastructural study using lectin histochemistry, enzymes and chemical deglycosylation.

The composition and distribution of rat acrosomal glycoproteins during spermiogenesis have been investigated at light and electron microscopic level by means of a variety of morphological techniques including the application of lectins conjugated to peroxidase, digoxigenin and colloidal gold, enzyme and chemical deglycosylation procedures and conventional histochemistry. Results obtained with lectin histochemistry in combination with beta-elimination reaction and endoglucosaminidase F/peptide N-glycosidase F digestion suggest that glycoproteins of mature acrosomes contain both N- and O-linked oligosaccharides. N-linked chains of acrosomal glycoproteins contain mannose and external residues of N-acetylglucosamine and galactose. They also have fucose residues linked to the core region of the oligosaccharide side chains. O-linked oligosaccharide chains contain external residues of both galactose and N-acetylgalactosamine. Mannose, fucose, galactose and N-acetylglucosamine residues were detected in acrosomes at all steps of spermiogenesis. N-acetylgalactosamine residues were only observed in the late steps of the spermiogenesis. N-acetylneuraminic acid residues were not detected throughout the acrosomal development. At initial stages of acrosome formation, glycoproteins were preferentially distributed over the acrosomic granules. In cap phase spermatids, lectin binding sites were homogeneously distributed throughout the acrosomes; however, in mature spermatozoa, glycoproteins were predominantly located over the outer acrosomal membrane.     

Acrosin does not appear to be bound to the inner acrosomal membrane of bull spermatozoa.

Ferritin-conjugated soybean trypsin inhibitor was used for the ultrastructural localization of acrosin in bull spermatozoa following acrosomal disruption. The ferritin label was observed in the anterior segment of the acrosome in disrupted cells only. Emptied acrosomes were labeled, mostly on the external surface of their outer membrane. Labeling was also found on the material bound to detached acrosomal caps. However, at no time could the ferritin label be found on the inner acrosomal membrane. It is concluded that acrosin activity is not present on the inner acrosomal membrane but is lost from the acrosomal matrix as the acrosomal reaction proceeds.     

In vitro capacitation and induction of acrosomal exocytosis in ram spermatozoa as assessed by the chlortetracycline assay

We have described the different patterns of chlortetracycline (CTC) binding to ram spermatozoa, immediately after ejaculation and upon in vitro capacitation and calcium ionophore-induced acrosomal exocytosis. Four different forms of CTC distribution were found. Form I showed an even distribution of fluorescence over the entire head, with a brighter band in the equatorial region. In Form II, uniform fluorescence was observed without equatorial band. Form III consisted of fluorescence in the anterior portion of the head. Form IV showed no fluorescence over the head. In all cases, fluorescence in the middle piece of the flagellum was observed as well. Immediately after ejaculation, Form I was the most abundant one (78%) in fresh semen with Forms II and III being relatively scarce (less than 15%). Form IV was virtually absent or appeared only occasionally. Incubation under in vitro capacitating conditions led to a significant decrease in Form I and to a significant increase in Forms II and III. Form II was mainly associated to intact acrosomes, while most spermatozoa in Form III showed intermediate forms of acrosomal status. Incubation of spermatozoa with the calcium ionophore A23187 resulted in 55% of spermatozoa showing Form IV, suggesting that it represents the acrosome-reacted stage. Form I was abruptly decreased at 30 min of incubation and was neglectible after 60 min. In contrast, Forms II and III increased at 30 min but decreased later on, suggesting that both forms represent intermediate stages before the acrosomal exocytosis. Analysis of acrosomal status in spermatozoa from individual CTC forms revealed that all spermatozoa that remained in Form II after incubation had intact acrosomes. Intermediate stages were predominant in Form III-spermatozoa, while most Form IV-spermatozoa underwent full acrosomal exocytosis. These results show that CTC binding can be used to monitor changes in ram spermatozoa during capacitation and acrosome-reaction.     

Spermatogenesis and ultrastructure of the spermatozoa of Seison nebaliae (Syndermata)

 The spermatozoa of Seison nebaliae are characterized by an elongated sperm body, a filiform nucleus, and an anteriorly inserting external cilium with a 9×2+2 axoneme pattern. In the sperm body a frontal, middle, and hind region can be distinguished. The frontal region contains an acrosomal vesicle, a perforatorium, a basal body, and a pair of apical dense bodies; an accessory centriole is absent. The middle region is characterized by several so-called filamental plates. One large mitochondrion and one pair of accessory tubular structures are located in the middle and hind region. The hind region also contains two rows of dense bodies. Accessory tubular structures and filamental plates are autapomorphies of S. nebaliae. The shared appearance of the dense bodies in spermatozoa of species of the taxa Seison and the Acanthocephala founds their sister-group relationship, while the anterior insertion of the cilium in the spermatozoa of these taxa and in the Rotifera confirms the monophylum Syndermata Ahlrichs, 1995. Accepted: 5 August 1998     

The effect of thawing velocity on survival and acrosomal integrity of ram spermatozoa frozen at optimal and suboptimal rates in straws

The effect of various thawing velocities on the motility and acrosomal maintenance of ram spermatozoa frozen at 20 degrees C/min (optimal) or 2 degrees C/min (suboptimal) was studied. The freeze-thaw motility and the percentage of intact acrosomes of spermatozoa frozen at 20 degrees C/min increased progressively with the thawing velocity. In semen frozen at 2 degrees C/min, motility of spermatozoa and the percentage of intact acrosomes declined drastically when the thawing velocity obtained in air at 20 degrees C was increased by thawing in water at 20 degrees C. Thawing at higher temperatures markedly increased both motility and acrosomal preservation, but the best results with semen frozen at 2 degrees C/min were lower than those obtained with semen frozen at 20 degrees C/min. The optimal freeze-thaw conditions for semen protected by 4% glycerol were freezing at 20 degrees C/min and thawing in water at 60 or 80 degrees C for 8 or 5 sec, respectively. Semen collected from rams exposed to a decreasing photoperiod exhibited higher motility after freezing and thawing than those exposed to an increasing photoperiod. However, there was no effect on acrosomal preservation after freezing at 20 degrees C/min.     

Effects of acrosin inhibitors on the soluble and membrane-bound forms of ram acrosin, and a reappraisal of the role of the enzyme in fertilization.

When denuded ram spermatozoa were suspended in weakly buffered 0.25M sucrose, the acrosin remained bound to the acrosomal membranes of the sperm heads. Media containing CaCl2 caused complete solubilization of the enzyme. Effects of acrosin inhibitors on soluble and bound enzyme were studied in Tris HCl(pH 8.2) containing sucrose. Denuded spermatozoa were used as a preparation of bound acrosin. Trasylol (Kunitz basic pancreatic trypsin inhibitor) acted more strongly on bound scrosin than on soluble acrosin, but soya-bean trypsin inhibitor acted more strongly on soluble acrosin. At concentrations 0.5 - 2.0muM, the inhibitors isolated from ram acrosomes and from ram seminal plasma inhibited soluble acrosin but had negligible effects on bound acrosin. However, bound acrosin was sensitive to high concentrations of the acrosomal inhibitor. The two forms of acrosin were inhibited to about the same degree by p-aminobenzamidine and also by Tos-Lys-CH2Cl. It is proposed that membrane-bound acrosin is the form that functions in penetration of the zona pellucida, and that a role for acrosin inhibitors is suppression of an antifertility effect of soluble acrosin on mammalian eggs. This hypothesis is supported by 1) the results of work on the impaired fertilizing capacity of rabbit spermatozoa that have been treated with acrosin inhibitors, 2) the anti-fertility effects on hamster eggs of solutions of acrosin and of bovine trypsin, and 3) the results in this paper.     

ELECTRON MICROSCOPIC OBSERVATIONS OF GUINEA PIG SPERMATOZOA PENETRATING EGGS IN VITRO*

Guinea pig ovarian oocytes matured in vitro were inseminated in vitro with capacitated, acrosome-reacted spermatozoa and sperm penetration through the zona pellucida and into the egg cytoplasm were examined. Sperm heads passing through the zona pellucida had already lost all their acrosomal elements except for the inner acrosomal membrane and the equatorial segment. It was often observed that the texture of the zona material around the sperm head was distorted, giving the impression that the zona pellucida was parted, at least partially, by a shearing force produced by the sperm head advancing through the zona. When eggs were freed from their zonae pellucidae and inseminated, the acrosome-reacted spermatozoa immediately bound to the egg surfaces and began to fuse with the eggs; whereas the spermatozoa with intact acrosomes failed to do so. Fusion began between the egg plasma membrane and the sperm plasma membrane at the central region of the sperm head. The anterior half of the sperm head was engulfed by the egg in a phagocytic fashion, while its posterior half was incorporated into the egg by a fussion between egg and sperm plasma membranes. Incorporation of the sperm tail into the egg was achieved by fusion between the sperm and egg plasma membranes.     

Ultrastructure of testes and spermatogenesis in the trombiculid mite,Hirsutiella zachvatkini (Schluger)

Summary

Spermatogenesis and sperm ultrastructure of the trombiculid mite Hirsutiella zachvatkini (Schluger 1948) have been investigated using transmission electron microscopy and compared with other arachnids studied. Sperm differentiation takes place in groups of synchronously developed germ cells of the two large sac-like paired testes. Each testis is composed of a secretory epithelium, which occupies their medio-ventral regions, and of a germinative epithelium situated in the latero-dorsal parts of testes together with large somatic cells. The germ cells are represented on sections by spermatogonia, spermatocytes, early, middle and late spermatids, and mature spermatozoa. Spermatocytes and spermatids contain two centrioles, which disappear afterwards, and a small Golgi-like structure forming an acrosomal cistema. Mature spermatozoa, which lie both within the meshes of somatic cells and also free in the lumen of testes, are compact oval aflagellate cells provided with peripheral channels. They also contain an acrosome, flattened between the cell membrane and the round electron-dense chromatin body, an oval body of lesser density lying in close proximity to the chromatin body, and a group of 5–7 mitochondria with spherically arranged cristae situated immediately behind the nuclear bodies. An acrosomal filament may be sometimes seen beneath the acrosome in the middle spermatids and disappears in the mature spermatozoa. These findings show that the mode of differentiation and pattern of organization of the male sex cells in trombiculid mites are of rather primitive type compared with other acarine spermatozoa.     

Difference in the Manner of Association of Acrosome-Intact and Acrosome-Reacted Hamster Spermatozoa with Egg Microvilli as revealed by Scanning Electron Microscopy

Scanning electron microscopy was employed to examine the manner of association between in vitro capacitated spermatozoa and zona-free eggs of the hamster. Spermatozoa with intact acrosomes, which were unable to fuse with eggs, were seen in general associated with egg microvilli in the region of the acrosomal cap. Acrosome-reacting spermatozoa were seen associated with egg microvilli with the dissociating acrosomal caps. Acrosome-reacted spermatozoa, which were able to fuse with eggs, generally associated with egg microvilli by the equatorial segment and the anterior portion of the postacrosomal region. It is inferred that the completion of the acrosome reaction signals changes in the plasma membrane over the equatorial segment of the acrosome and the anterior area of the postacrosomal region which give it a greater affinity to and fusibility with the oolemma.     

Vital staining and acrosomal evaluation of bovine sperm

Dried smears prepared from vitally stained sperm were evaluated as a method of simultaneously determining sperm viability and acrosomal morphology. A combination Fast Green FCF-Eosin B stain was used. The stained smears were examined at × 1, 250 using differential interference contrast microscopy (DIC). For comparison, the percentage of sperm with intact acrosomes was also determined from wet smears using DIC. Acrosomal morphology was not altered by the staining procedure, as the percentage of intact acrosomes was similar whether quantitated from wet or stained smears. Absence of eosinophilic staining in the acrosome was used as an indication of sperm viability. The percentage of sperm with unstained acrosomes was highly correlated with the percentage of intact acrosomes quantitated from stained smears. Thus, vital staining provided an indication of sperm viability comparable to acrosomal integrity, a highly reliable technique. The major advantages of using dried stained smears were more thorough examination of individual sperm without sperm activity interference, simultaneous evidence of sperm viability and morphology, and the opportunity to delay evaluation. In addition, diluting spermatozoa in complex or simple media with or without egg yolk or follicular fluid did not interfere with subsequent staining or acrosomal evaluation.