Membrane organization in mouse spermatozoa revealed by freeze-etching

The functional anatomy of the human spermatozoon: relating ultrastructure and function

The Internet, magazine articles, and even biomedical journal articles, are full of cartoons of spermatozoa that bear minimal resemblance to real spermatozoa, especially human spermatozoa, and this had led to many misconceptions about what spermatozoa look like and how they are constituted. This review summarizes the historical and current state of knowledge of mammalian sperm ultrastructure, with particular emphasis on and relevance to human spermatozoa, combining information obtained from a variety of electron microscopic (EM) techniques. Available information on the composition and configuration of the various ultrastructural components of the spermatozoon has been related to their mechanistic purpose and roles in the primary aspects of sperm function and fertilization: motility, hyperactivation, capacitation, the acrosome reaction and sperm-oocyte fusion.

Role of microtubule-dependent membrane trafficking in acrosomal biogenesis

The role of microtubule-based trafficking in acrosomal biogenesis was examined by studying the effects of colchicine on spermiogenesis. In electron micrographs of untreated cap-phase mouse spermatids, coated vesicles were always seen on the apex and caudal margins of the developing acrosomal cap. The increase in volume and the accumulation of materials in the acrosome during the Golgi and cap phases were observed to occur via fusion of vesicles at various sites on the growing acrosome. By studying the acid phosphatase localization pattern and colchicine-treated spermatids, the role of clathrin-coated vesicles became clear. Coated vesicle formation at the caudal margin of the acrosome appeared to be responsible for the spreading and shaping of the acrosome over the surface of the nucleus and also established distinct regional differences in the acrosome. In colchicine-treated spermatids, the Golgi apparatus lost its typical membranous stack conformation and disintegrated into many small vesicles. Acrosome formation was retarded, and there was discordance of the spread of the acrosomal cap with that of the modified nuclear envelope. Many symplasts were also found because of the breakdown of intercellular bridges. Colchicine treatment thus indicated that microtubule-dependent trafficking of transport vesicles between the Golgi apparatus and the acrosome plays a vital role in acrosomal biogenesis. In addition, both anterograde and retrograde vesicle trafficking are extensively involved and seem to be equally important in acrosome formation.

A case of decapitated spermatozoa in an infertile man

A case of headless or decapitated spermatozoa of an infertile man is reported. The 33-year-old patient showed almost normal spermiogram except for a high percentage (more than 90%) of headless spermatozoa. Both hypoosmotic swelling and zona-free hamster egg tests showed that most headless spermatozoa appeared to be normal in their function as tails. The ultrastructure of the ejaculated spermatozoa was observed using a surface replica method and by conventional ultrathin sectioning. The headless spermatozoa were almost normal in structure except for the absence of the head. Tailless heads were rarely observed. Varieties of ultrastructural abnormalities were observed in spermatozoa heads. Among them, abnormalities in the nuclear membrane covering the posterior pole of the nucleus were prominent. The implantation fossa and the basal plate were not formed. Instead, the nuclear membrane with numerous nuclear pores was found in this region. The decapitation seemed to take place between the region of the basal plate and the proximal centriole.

Compartmentalization, processing and redistribution of the plasma membrane protein CE9 on rodent spermatozoa. Relationship of the annulus to domain boundaries in the plasma membrane of the tail

Western blotting, immunofluorescence and immunogold electron microscopy were used to examine the compartmentalization, processing and redistribution of the integral plasma membrane protein CE9 on the spermatozoa of rats, mice and hamsters. In each species examined, spermatozoal CE9 was found to undergo endoproteolytic processing followed by a net redistribution from the posterior-tail domain into the anterior-tail domain of the plasma membrane during epididymal maturation. Compared to spermatozoa of the rat and mouse, those of the hamster were found to express a greater proportion of their CE9 within the anterior-tail plasma membrane domain at all stages of maturation. As a consequence, CE9 was judged to be a suitable marker for two different spermatozoal plasma membrane domains: the posterior-tail plasma membrane domain (spermatozoa from the testis and caput epididymidis of the rat and mouse) and the anterior-tail domain (spermatozoa from the cauda epididymidis of the hamster). Immunogold electron microscopy was used to pinpoint the positions of the boundaries of these CE9-containing plasma membrane domains at a high level of resolution. In each case, the position of the CE9 domain boundary was found to be strongly correlated with that of the subplasmalemmal electron-dense ring known as the annulus. The precise spatial relationship between the CE9 domain boundary and the annulus was, however, found to differ significantly among species and/or as a function of maturation.

Membrane domains in guinea pig sperm and their role in the membrane fusion events of the acrosome reaction

In this study, we have examined the structure of domains of the periacrosomal plasma membrane (PM) and outer acrosomal membrane (OAM) of guinea pig sperm and defined their fate during the membrane fusion events of the acrosome reaction. Cauda epididymal sperm were arranged in rouleaux, joined by periacrosomal PM "junctional" zones; in these zones, the PMs were linked by cross bridges formed from a paracrystalline glycocalyx. Bridging elements linked the PM to the OAM on the ventral (concave) but not dorsal (convex) aspect of the apical segment. Parallel filaments were associated with the luminal face of the OAM overlying the dorsal surface of the apical segment. Sperm were induced to undergo a "synchronous" acrosome reaction after preincubation in Ca2+-free medium containing lysolecithin, by the addition of Ca2+. Fusion between the OAM and PM occurred at the boundaries but not within the PM "junctional" zones over the apical segment. In nonjunctional regions on the dorsal surface of the apical segment, sheets of unfenestrated hybrid membranes and parallel arrays of hybrid membrane tubules formed, while branching arrays of hybrid membrane tubules and vesicles were observed on the ventral surface. In the principal segment, networks of branching hybrid membrane tubules initially formed but later transformed into vesicles. Hence, the lysolecithin-mediated guinea pig sperm acrosome reaction involves a complex sequence of membrane fusions, which differs in domains of the periacrosomal PM and OAM. Stable nonfusigenic domains are present in both the PM and OAM of the apical segment; membrane-associated assemblies may maintain these domains and may also provide direction to some of the membrane fusion events of the acrosome reaction.

Maturation changes of the plasma membrane of rat spermatozoa observed by surface replica, rapid-freeze and deep-etch, and freeze-fracture methods

Rat spermatozoa from the epididymis and ductus deferens were observed by surface replica, rapid-freeze and deep-etch, and conventional freeze-fracture methods. By the surface replica method, parallel periodical ridges were observed in the acrosomal region of the spermatozoa from the distal part of the cauda epididymis (zone 6) and from the ductus deferens. The periodicity of the ridges forming a domain was about 35 nm. A quantitative analysis of the spermatozoa along the reproductive tract indicated that 39.4% and 73.5% of the population in zone 6 of the epididymis and in the ductus deferens, respectively, had the domain. None of the spermatozoa from zone 1 through zone 5 had the domain. The results of the rapid-freeze and deep-etch procedure showed that the ridges observed by the surface replica method consisted of linear arrangements of elliptical particles on the ES face of the plasma membrane. The particles were about 30 nm in length and 15 nm in width. On the corresponding PF face of the plasma membrane, linear arrangements of the intramembrane particles (IMPs) of about 8 nm in diameter were observed by both the deep-etch and freeze-fracture methods. The IMPs tended to run in paired parallel lines. A close relationship was observed between the lines of the elliptical particles on the ES and of the IMPs on the PF faces. The elliptical particle may be a protruded part of the IMP(s) or other protein(s) bound to the IMP(s).

Plasma membrane structure of bat spermatozoa: observations on epididymal and uterine spermatozoa in Myotis lucifugus

Plasma membrane structure of bat spermatozoa was examined utilizing electron microscopy of thin sections and freeze-fracture replicas. Notable membrane features observed in replicas from cauda epididymal spermatozoa included specialized particle aggregates at the junction between the acrosomal and postacrosomal region of the head (a membrane structure not previously described in mammalian spermatozoa) and another row of rod-like particles just anterior to the posterior ring. Both of these specializations in fractured plasma membranes correspond with regions where the membrane is closely apposed to underlying structures when viewed in thin sections. The postacrosomal sheath appears to be composed of an array of longitudinally oriented filamentous components. Characteristic ordering of intramembranous particles was also noted in replicas from the midpiece region and the annulus. Major changes in plasma membrane structure were not seen in spermatozoa stored in the female reproductive tract; however, the appearance of linear particle aggregations in the principal piece membrane was noted. No evidence was obtained to suggest that an acrosome reaction had occurred in spermatozoa stored in females.

Changes in sperm plasma membrane lipid diffusibility after hyperactivation during in vitro capacitation in the mouse

We have used the technique of fluorescence recovery after photobleaching to measure the diffusibility of the fluorescent lipid analogue, 1,1'-dihexadecyl 3,3,3',3'-tetramethylindocarbocyanine perchlorate on the morphologically distinct regions of the plasma membranes of mouse spermatozoa, and the changes in lipid diffusibility that result from in vitro hyperactivation and capacitation with bovine serum albumin. We found that, as previously observed on ram spermatozoa, lipid analogue diffusibility is regionalized on mouse spermatozoa, being fastest on the flagellum. The bovine serum albumin induced changes in diffusibility that occur with hyperactivation are also regionalized. Specifically, if we compare serum incubated in control medium, which maintains normal motility, with those hyperactivated in capacitating medium, we observe with hyperactivation an increase in lipid analogue diffusion rate in the anterior region of the head, the midpiece, and tail, and a decrease in diffusing fraction in the anterior region of the head.

Distribution of intramembranous particles and filipin-sterol complexes in mouse sperm membranes: polyene antibiotic filipin treatment

The distribution of intramembranous particles (IMPs) and membrane filipin-sterol complexes (FSC) was examined ultrastructurally in mouse spermatozoa from the male reproductive tract and ejaculates. IMPs were qualitatively analyzed on freeze-fracture replicas of glutaraldehyde-fixed tissue, while membrane FSC were quantitatively analyzed on replicas of filipin-treated cells. The distribution pattern of IMPs of mouse spermatozoa was fundamentally similar to that of other mammalian spermatozoa. 1) In the head, the plasma membrane had a heterogeneous population density, e.g., few IMPs on the acrosomal region, particularly few on the marginal segment, and somewhat regularly arranged IMPs on the postacrosomal region. The acrosomal membrane had many IMPs in hexagonal arrays. The nuclear membrane had many IMPs on the P-face, few IMPs on the variegated E-face, and an intense population density on the P-face of the basal plate. 2) In the neck, the plasma membrane had many IMPs with square arrangements of small IMPs in some areas on the P-face; the redundant nuclear membrane had a few IMPs on both P- and E-faces. 3) In the tail, the plasma membrane had diagonal rows of IMPs in some areas amongst larger IMPs on the middle piece, while it had "zippers" composed of IMPs running parallel to the axis on the principal piece. The distribution of sperm membrane FSC may be summarized as follows: 1) In the head, the acrosomal plasma membrane, which was heavily labeled with filipin, had much more FSC in the equatorial segment than in the marginal segment throughout the study. The postacrosomal plasma membrane generally had no FSC, but some sperm in ejaculates were slightly positive to filipin. The acrosomal membranes (both outer and inner) had no FSC. The nuclear membrane in the main part of the head had less FSC in vas deferens and ejaculated sperm than in the epididymal sperm. The nuclear membrane on the basal plate had no FSC. 2) In the neck, the plasma membrane had little FSC. The redundant nuclear envelope had scattered FSC with a higher incidence in the epididymal sperm than in those from the vas deferens and ejaculates. The membrane scroll, which was elongated from the extreme caudal end of the redundant nuclear envelope, had abundant FSC in the vas deferens and ejaculated sperm. 3) The tail plasma membrane (both middle and principal piece), which was weakly labeled with filipin, had less FSC in sperm from the vas deferens and ejaculates than in those from the epididymis. The limiting membrane covering the mitochondria had no FSC.

Inner acrosomal membrane of mammalian spermatozoa: its properties and possible functions in fertilization

The inner acrosomal membrane (IAM) develops during the spermatid stage of differentiation as that portion of the Golgi-derived acrosome granule that tightly associates with the condensing sperm nucleus. In some mammalian species, an electron-dense proteinaceous material accumulates between the IAM and the nuclear envelope, collectively comprising the "perforatorium." Evidence, including its partial purification and its structural resistance to detergents and sonication, suggests that the IAM is an unusually resiliant membrane. Dense paracrystalline arrays of intramembranous particles, a lack of lectin-mediated receptor modulation, and its lack of participation in sperm-egg fusion suggest that the IAM lacks the same degree of fluidity as the egg surface plasmalemma. Observations using monoclonal antibodies, however, suggest that some specific antigenic modulations may be possible within the IAM. Its structural rigidity is of obvious mechanical value during sperm penetration through the zone pellucida. An additional role as a scaffold for putative zona lysin material remains controversial. Biochemical evidence suggests that acrosin, for example, is not entirely soluble and that some remains sperm-associated, depending on the conditions of acrosome disruption. Nevertheless, morphological studies do not agree on acrosin's specific localization to the IAM. Currently there is only very limited information concerning the localization of the other acrosomal enzymes to the IAM. Another possible role for the IAM in some species may be in recognizing the zona pellucida. Evidence for this derives from the observation that fucoidin, a fucose heteropolysaccharide, inhibits guinea pig sperm-zona binding, and bound fucoidin can be localized to the IAM and equatorial regions of the living acrosome-reacted spermatozoa. Finally, the IAM may have a role in early recognition/adhesion with the colemma.

Structure of membrane domains and matrix components of the bovine acrosome

The acrosomal membrane system of bovine spermatozoa was examined by thin-section, freeze-fracture, surface-replica, and negative staining techniques in order to identify structural differentiations of specific acrosomal membrane domains. The outer acrosomal membrane of the apical and principal segments is characterized by a prominent electron-dense complex associated with its luminal face and a random intramembranous particle distribution. In the equatorial segment, the two-dimensional organization of bridging elements extending between the outer and inner acrosomal membrane was determined and correlated to freeze-fracture images. The inner acrosomal membrane lacked the electron-dense assembly noted on the outer acrosomal membrane and in freeze-fracture it appears crystalline. Further studies identified the distribution of the electron-dense subacrosomal material in the space between the inner acrosomal membrane and outer nuclear membrane. Finally, new observations on the structural organization of the acrosomal matrix are presented.

Topographical relations of intramembrane particle distribution patterns in human sperm membranes

The distribution of intramembrane particles in human sperm membranes has been explored with particular reference to the topographical region of the sperm cell and the membranes' fracture face. Conspicuous differences in the size, arrangement, density, and lateral mobility of intramembrane particles between some topographically distinct membrane domains are demonstrated. The greatest regionality is exhibited by the plasma membrane. In sperm head regions, it shows a significant variability and changes its particle distribution during culture in capacitating medium. In contrast, little variability and no changes during the incubation are seen in the acrosomal and nuclear membranes. Striking is the difference in particle distribution on the E face of the outer acrosomal membrane between the acrosomal and equatorial regions. It is suggested that the invariable regional difference in the organization of the outer acrosomal membrane may bear on the different behavior of its two main domains during sperm capacitation and acrosome reaction.

Proteins of de-membraned protamine-depleted mouse sperm. Homology with proteins of somatic cell nuclear envelope/matrix

Following treatment with Triton X/1 M NaCl/2-mercaptoethanol, mouse sperm heads are divested of protamines and other basic proteins; the residual structure is one in which the general morphological organization of the decondensed chromatin and the nuclear boundaries are conserved [1]. In this study, the protein complement of that residual structure has been characterized and subdivided into two sets: 1. Those that are sperm-unique, including constituents of the sperm head that may be intrinsically nuclear (or extra-nuclear, but exceedingly adherent to the nuclear envelope). 2. Those that display corresponding electrophoretic properties and immunologic cross-reactivity with proteins of similarly treated mouse somatic cell nuclei. Among the latter are proteins of molecular weight 52, 63 and 69 kD, two of which (63 and 69 kD) appear to be homologous to polypeptides of somatic nuclear envelope/pore complex lamina. Absence from sperm nuclei of the third of the characteristic predominant triplet of somatic nuclear lamina polypeptides of mammalian cells, here designated 67 kD, indicates cell-type variation in these structures. On the other hand, the identification of homologous polypeptides in the sperm and somatic complements suggests that those are specific instances of conservation and may represent the paternal contribution to the pool of polypeptides for assembly of the envelopes of the pronuclei of the one-cell embryo.

Changes in intramembranous particle distribution epididymal spermatozoa of the boar

Membranes of boar spermatozoa from different regions of the epididymis and after ejaculation were studied by the freeze-fracture replica technique. The ordered pattern of the intramembranous particles of spermatozoan plasma membranes was different in the five arbitrary zones of the epididymis and in the semen. A distinctive ordered pattern was absent in zone 1, which is the proximal segment of the epididymis. In zone 2, paired parallel rows of the particles were present in the plasma membrane over the acrosomal region. This parallel arrangement was not present in zone 3 spermatozoa. Anterior to the posterior ring, cords formed by packed particles were apparent in zone 2 spermatozoa and reached their maximum prominence in zone 3, and persisted in zones 4 and 5 and in the semen. The plasma membrane over the marginal ridge of the acrosome had a hexagonal array of particles only in zones 4 and 5 spermatozoa. A similar pattern appeared on the post-acrosomal region of spermatozoa in zone 5 and in the semen. The plasma membrane of the middle piece had a rectilinear arrangement of the particles in zone 2 spermatozoa in which the migration of the cytoplasmic droplet was complete. Rudiments of the rectilinear arrangement persisted in spermatozoa in zones 4 and 5 and in the semen. These changes are discussed in relation to sperm maturation in the epididymis. The acrosomal membrane had a hexagonal arrangement of particles in the equatorial segment. The marginal ridge of the outer acrosomal membrane had parallel rows of intramembranous particles. The organization of the acrosomal membrane particles did not change during the epididymal passage of boar spermatozoa.

Fine structure of spermatozoa of the Asiatic musk shrew, Suncus murinus

The fine structure of spermatozoa of the Asian musk shrew, Suncus murinus, has been investigated using air-dried and critical-point-dried replicas in addition to freeze-fractured specimens. Asymmetry in the structure of the head, notable the acrosome, can be recognized in critical-point-dried replicas as a slight dorsoventral convexity not apparent in air-dried specimens. Freeze-etching reveals a dense accumulation of intramembranous particles just anterior to the posterior ring, but relatively few other characteristic membrane conformations associated with the head. Gelatin smears visualized with the light microscope show a vigorous lytic response, but preliminary efforts to remove the acrosome by physiological or enzymatic incubation have thus far not been successful.

Ultrastructure of the cell wall regeneration of isolated protoplasts of Skimmia japonica thunb

Isolated protoplasts obtained from leaves and from stem callus cultures of Skimmia japonica were cultivated for 72 h to regenerate a new cell wall. During this process the structural changes in the protoplasts and at the surface of the plasmalemma were studied in ultrathin sections and after freeze-fracturing and deep-etching.The cultured protoplasts show an apparent increase in cell organelles compared to the freshly isolated protoplasts. In particular, mitochondria, endoplasmic reticulum, and ribosomes, many of them appear as polysomes, become numerous. Moreover, special connections between the ER and the plasmalemma are visible. Most important are the fracture faces of the plasmalemma with two different arrangements of membrane-bound particles: (1) particles in hexagonal arrays and (2) rows of ca. 14 particles. Their orientation usually conforms with that of the regenerated microfibrils of the cell wall. According to these results the following model for microfibril synthesis and orientation in higher plants is proposed: While the cytoplasmic activity is involved in the production of cellulose precursors and enzymes, the hexagonal arrays may respresent specialized regions for the outward passage of these cellulose precursors. The rows of membrane-associated particles may function as a linear enzyme complex (matrix) for microfibril biosynthesis and orientation.

Nuclear pores in the spermatozoon of the rat

The paper describes a hexagonal array of nuclear pores in a non-redundant region of the nuclear envelope underlying the basal surface of the rat spermatozoon head. It is concluded that intranuclear material protruding through these pores is the cause of the characteristic rows of circular 'bumps' found in surface replicas of this region.

Fine structural localization of Concanavalin A binding sites on hamster spermatozoa

The plasma membrane of epididymal spermatozoa of the golden hamster (Mesocricetus auratus) exhibits morphological differences over various parts of the head and tail as detected by air-dried replicas and freeze-etching techniques. In an attempt to ascertain whether any topographical differences exist in the number or distribution of carbohydrate moieties associated with the cell surface, cells were labeled with Concanavalin A and marked with hemocyanin. It was found that while the plasma membrane over the acrosomal region differed from that of the postacrosomal region in membrane components revealed by freeze fracturing, there was no apparent difference in the distribution or density of Con A binding sites detectable by hemocyanin localization. The tail regions exhibited differences in both fracture face appearance and the distribution of detectable carbohydrate moieties. It was also found that binding sites for Concanavalin A exist on the inner and outer acrosomal membranes in addition to those on the plasma membrane.