Showing papers in "Gamete Research in 1981"

Effects of various lipids on the acrosome reaction and fertilizing capacity of guinea pig spermatozoa with special reference to the possible involvement of lysophospholipids in the acrosome reaction

Abstract: The effects of lipids on the survival, acrosome reaction, and fertilizing capacity of guinea pig spermatozoa were studied by incubating the spermatozoa in media containing various concentrations of the lipids. Lipids tested were: phosphatidyl-choline (PC), -ethanolamine (PE), -inositol (PI), -serine (PS), sphingomyelin (S), cholesterol (C), lysophosphatidyl-choline (LC), -ethanolamine (LE), -inositol (LI), -serine (LS), and glyceryl monooleate (M). When spermatozoa were incubated in a regular medium (containing 2 mM Ca2+) with M, the majority underwent the acrosome reaction within 1 hour. None of the other lipids were as effective as M, and some were totally ineffective under the same conditions. However, when spermatozoa were preincubated in Ca2+-free medium containing LC, LE, or LI, they gained the ability to undergo the acrosome reaction. One hour of preincubation in Ca2+-free medium with LC, LE, or LI was enough to render the vast majority of spermatozoa capable of undergoing the acrosome reaction in response to Ca2+. The optimum concentrations for LC, LE, and LI were approximately 85 μg/ml, 210 μg/ml, and 140 μg/ml, respectively. Spermatozoa that had undergone the acrosome reaction by pretreatment with LC, LE, or LI remained actively motile and were capable of fertilizing eggs. LS was totally ineffective in rendering the spermatozoa capable of undergoing the acrosome reaction, and in fact it inhibited the acrosome reaction by itself and also inhibited the LC-, LE-, or LI-mediated acrosome reaction. LS did not prevent acrosome-reacted spermatozoa from penetrating the zona pellucida, but did prevent sperm-egg fusion. Based on these findings, it is suggested that lysophospholipids are intricately involved in the sperm acrosome reaction and perhaps in sperm-egg fusion.

Production, characterization, and use of ionophore‐induced, calcium‐dependent acrosome reaction in ram spermatozoa

Abstract: A system has been developed for inducing a calcium-dependent acrosome reaction in ram spermatozoa in vitro using the calcium ionophore A23187. The resultant reaction is accompanied by release of the acrosomal enzymes hyaluronidase and acrosin, but there is no release of the cytoplasmic enzyme glucose 6-phosphate isomerase. In any given cell, the visible acrosome reaction apparently takes place rapidly, but there is a variable delay before the reaction occurs. Under optimum conditions, about 90% of treated spermatozoa show an acrosome reaction within one hour. Preincubation of the spermatozoa with the proteinase inhibitors p-amino-benzamidine or p-nitrophenylguanidinobenzoate allows two stages of the reaction to be distinguished ultrastructurally, a membrane fusion stage followed by a dispersal of the acrosomal matrix. In the presence of the inhibitors, the first stage is delayed but is completed within 1 hour, whereas the second remains largely incomplete. In the presence of calcium, ionophore concentrations which induce an acrosome reaction abolish sperm motility rapidly and completely. However, by adding serum albumin shortly after addition of ionophore, motility can be preserved while the acrosome reaction occurs as usual; the motility pattern observed under these conditions is of the “whip-lash” or “activated” type. Although the motile ionophore-treated spermatozoa were unsuccessful at penetrating normal mature sheep oocytes in vitro, they were able to penetrate zona-free oocytes, after which swelling and decondensation of the sperm head took place.

Kinematics of human spermatozoa

Abstract: A microcinematographic (50 f/s) study was performed on motile human spermatozoa. Eighty percent were found to have a linear trajectory and a pseudo-sinusoidal head displacement pattern. Throughout their progression, the spermatozoa periodically rotated on their longitudinal axis at a frequency equal to that of flagellar wave formation. These waves were found always to begin on the same side of the cell and to propagate in the flattened plane of the head until the moment of rotation. At this time the wave had reached a point near the middle of the flagellum. Beyond this point, the flagellum moves out of the plane of the head. Different variables used to characterize the movement of spermatozoa included the velocity of progression, amplitude and velocity of head displacement, frequency of rotation, wave amplitude, and propagation velocity of the flagellar wave. Among these variables, it was the propagation velocity of the wave that was found to be best correlated with the velocity of spermatozoan progression. This flagellar wave exhibited two stages, one of initiation and one of propagation.

The movement characteristics of rabbit spermatozoa before and after activation

Abstract: Spermatozoa were flushed with mineral oil from the lower isthmus of the rabbit oviduct at four hours postcoitus (pc) and 11 hours pc. Videotapes were made of sperm behavior in the native isthmic fluid and after dilution of the fluid with culture medium. The tapes showed that, initially, spermatozoa in the native isthmic fluid were virtually immotile, but immediately resumed movement on contact with the culture medium. Isthmic sperm motility then evolved over a five- to 10-minute interval into the characteristic biphasic pattern of activated movement. Cine films of isthmic spermatozoa taken with a high-speed camera were analyzed to determine flagellar beat frequency, maximum flagellar curvature, and swimming velocity. Progressiveness ratios and hydrodynamic power outputs were then calculated for individual spermatozoa. Two phases of activated sperm movement, a whiplash phase and a progressive phase, were identified and characterized. The power output of activated spermatozoa increased twentyfold in comparison with the preactivated state. The power output of activated spermatozoa did not differ between the two phases of activated movement.

Acquisition of meiotic competence in the rat: Role of gonadotropin and estrogen

Abstract: Oocytes were removed from the follicles of rats at 15 to 31 days of age, and their ability to resume meiosis (“meiotic competence”) in vitro was correlated with their diameter and the stage of follicular development. The majority of oocytes explanted on day 15 did not resume meiosis when placed in culture, but the percentage of competent oocytes increased from 14.1% ± 3.0% on day 20 to 67.6% ± 3.3% on day 26 of age. This ability to resume maturation correlated well (r = 0.98) with the increase in diameter of oocytes and coincided with the development of antral follicles. Hypophysectomy on day 15 of age, but not on day 20, reduced the percentage (P < 0.001) and number (P < 0.001) of competent oocytes and was accompanied by a reduction in diameter of oocytes. Treatment with PMSG or E2 increased the number (P < 0.001) and percentage (P < 0.001) of competent oocytes. These results suggest that the ability of oocytes to mature in vitro is dependent upon stimulation by gonadotropins and that this action of gonadotropin may be mediated by production of estrogen within the follicles.

The effects of taurine and hypotaurine on in vitro fertilization in the golden hamster

Abstract: Taurine and hypotaurine were examined for their efficacy in replacing sperm motility factor (SMF), prepared from bovine adrenal cortex, for in vitro fertilization in the golden hamster. Combinations of these amino acids at concentrations of 0.001, 0.01, 0.1, and 1 mM together with 16 μM isoproterenol (a catecholamine β-agonist) were added to the sperm incubations. After three hours of sperm preincubation, oviductal eggs were added to the sperm suspensions and examined for penetration and stage of fertilization after three or five hours of culture. At 0.001 mM, neither taurine or hypotaurine was capable of maintaining motility of hamster sperm for four to 4½ hours or of inducing fertilization. With all other concentrations, both amino acids were found to maintain motility of sperm as well as SMF. Hypotaurine stimulated motility to a greater extent than taurine and both required isoproterenol for the greatest motility. A low proportion of cumulus-free ova were fertilized when sperm were preincubated with either amino acid alone over the range of 0.01 to 1 mM; however, over 80% fertilization was consistently obtained when isoproterenol was also present during sperm incubation. Proportions of ova fertilized with taurine or hypotaurine present during sperm preincubation were comparable to those achieved with SMF. The possibility that taurine or hypotaurine is the sperm motility factor is discussed. After three hours of sperm/egg incubation, a lag in the early events of fertilization was observed in experimental groups treated with one of the amino acids (0.01 mM) alone compared with groups treated with isoproterenol present. However, if sperm/egg incubation was extended from three to five hours, no increase in number of eggs penetrated was found. Therefore, the delay observed at three hours was considered a function of fewer numbers of capacitated sperm present in the absence of isoproterenol rather than of the need for an extended capacitation time.

Factors which may affect removal of protamine from sperm DNA during fertilization in the rabbit

Abstract: In order to derive information about possible mechanisms by which the sperm head is converted into the male pronucleus during fertilization in the rabbit, unfertilized egg homogenate was assayed for two enzyme activities. Protamine was extracted from rabbit sperm, purified, and labelled with [14C] in an in vitro reaction and used as a probe to assay for a protein kinase which could transfer [32P]PO4 from [γ-32P]ATP onto the substrate. A kinase with a pH optimum of approximately 8.0 to 8.5 is described. Assays for the enzyme glutathione reductase were performed using homogenates from eggs or embryos at three early stages of development. Results suggest that oocytes can oxidize 2.58 × 10−6 μmol NADPH per minute per oocyte, unfertilized eggs 5.16 × 10−7 μmol NADPH per minute per ovum, and 20- to 24-hour postcoitus fertilized eggs 2.30 × 10−6 μmol NADPH per minute per ovum. The relevance of these observations to male pronuclear formation is discussed.

Temperature dependence of capacitation in bat sperm monitored by zona‐free hamster ova

Abstract: The temperature dependence of capacitation in bat sperm (Myotis lucifugus lucifugus) was studied by monitoring fertilizations rates of zona-free hamster ova at different temperatures. Spermatozoa were cultured in BWW medium at temperatures 4°C, 24°C, 32°C, 42°C, and 55°C from 0–24 hr. Activation of sperm could be determined visually due to the change in movement seen through light microscopy. Activation was later confirmed by higher rates of fertilization. Preincubation of the bat sperm was found to have a direct effect on the success of penetration of the zona-free hamster ova. Holding bat spermatozoa at low temperature for long intervals allowed them to remain motile but unable to fertilize. Sperm are not irreversibly damaged, however, and activation, when the temperature is increased to 32°C, is faster than when sperm are intitially put at 32°C, resulting in good fertilization rates.

Stimulation of hamster sperm capacitation and acrosome reaction in vitro by glucose and lactate and inhibition by the glycolytic inhibitor α-chlorohydrin

Abstract: Studies were made of the effects of D(+)-glucose, L-lactate and pyruvate on in vitro capacitation and acrosome reactions (AR) of hamster sperm using a more “defined” medium that that used in previous similar studies. In the absence of glucose or lactate, sperm underwent very few AR and activation (whiplash-like motility characteristic of capacitated hamster sperm) was reduced compared to those events in sperm preincubated in the presence of glucose plus lactate plus pyruvate. Glucose and pyruvate supported more AR than glucose alone, but less than glucose, lactate, and pyruvate. The glycolytic inhibitor α-chlorohydrin (10 μm) inhibited AR by 50% and reduced activation by less. When glucose was added to sperm incubated 2 hr with pyruvate and lactate, the number of AR observed after 4 hr was the same as that obtained when glucose was present throughout the incubation. When glucose was added after 3.5 hr, AR were delayed for 1 hr and lower numbers of sperm underwent AR. In the presence of lactate and pyruvate, 0.38 mM glucose was able to support activation and AR as well as 3.24 mM glucose. These results indicate that exogenous glucose and lactate are necessary for in vitro capacitation and AR of hamster sperm; only low levels of exogenous glucose are required; exogenous glucose is not required during the first 2 hr of capacitation; and glycolytic activity is necessary for capacitation and the AR.

Reaction of sperm with egg‐derived hydrogen peroxide helps prevent polyspermy during fertilization in the sea urchin

Abstract: Recent evidence suggests roles for egg derived hydrogen peroxide (H2O2) and ovoperoxidase (secreted by cortical granules) in both fertilization envelope hardening and the block to polyspermy in sea urchins. Strongylocentrotus purpuratus eggs were found to release H2O2 during the cortical reaction at fertilization. Treatment of sperm with equivalent concentrations of H2O2 resulted in a rapid loss of sperm fertilizing ability. Attempts were made to induce polyspermy by utilizing ovoperoxidase inhibitors at concentrations known to inhibit fertilization envelope hardening. Eggs fertilized in phenylhydrazine became polyspermic, while 3-amino-1,2,4-triazole-treated eggs did not. These data suggested that a sperm peroxidase might be involved in preventing polyspermy. This hypothesis was tested by the addition of phenylhydrazine or 3-amino-1,2,4-trizaole to H2O2-treated sperm. Phenylhydrazine acted to protect sperm fertility from H2O2, while 3-amino-1,2,4-triazole increased the adverse effect of H2O2. Simultaneous addition of both inhibitors to sperm incubated in H2O2 gave an intermediate value of sperm fertility. These data indicate that (1) H2O2 generated by sea urchin eggs during the cortical reaction at fertilization is used for two separate processes, fertilization envelope hardening and the prevention of polyspermy; (2) ovoperoxidase is probably not involved in preventing polyspermy; and (3) egg-derived H2O2 reacts directly with sperm enzymes to prevent polyspermy. The phenylhydrazine-sensitive enzyme in the sperm is probably a peroxidase that acts to inactivate sperm, while the 3-amino-1,2,4-triazolesensitive enzyme is probably a catalase which protects sperm from H2O2. This hypothesis is consistent with model experiments on horseradish peroxidase and bovine liver catalase.

Oocyte maturation inhibitor (OMI) activity in protein granulosa cells

Abstract: To determine the origin of oocyte maturation inhibitor (OMI), cumulus-enclosed porcine oocytes from medium follicles were cultured for two days in Medium 199 alone, the low molecular weight (< 2,000 daltons) fraction of porcine follicular fluid (pFFL), or extracts of granulosa cells from small (1–2 mm), medium (3–5 mm), and large (6–12mm) antral follicles. Additionally, the cumulus-oocyte complexes were grown in the presence of the low molecular weight fraction of “conditioned” medium from suspension cultures of medium follicle granulosa cells. The percent maturation in cultures with pFFL was significantly (P < .001) less than control cultures. Similarly, addition of the granulosa cell extracts at a 1/20 dilution resulted in a significant reduction in the percent oocyte maturation as compared with controls. The percent maturation after addition of conditioned medium was similarly reduced (P < .001). These results suggest that the granulosa cells probably synthesize and secrete OMI which inhibits oocyte maturation in vitro. Additionally, it appears that the content of OMI in the granulosa cells decreases as the follicle matures.

Enrichment of primary pachytene spermatocytes from the human testis

Abstract: Normal adult human testis has been separated using a combination of mechanical and enzymatic procedures to yield a suspension of viable single cells. The predominant cell types comprising this suspension are as follows: primary pachytene spermatocytes (7% of total cells), round spermatids (17%), residual bodies and condensing spermatids (31%), and Leydig cells (15%). Separated human germ cells viewed by Nomarski differential interference microscopy closely resemble mouse spermatogenic cells in relative size and appearance. Isolation of an enriched population of human pachytene spermatocytes has been achieved using unit gravity sedimentation (STA-PUT) according to protocols originally developed for murine tissue. Pachytene cells are enriched to 75% and are contaminated only with Leydig cells and binucleated spermatid symplasts. Ultrastructural examination of isolated human pachytene spermatocytes indicates that these cells, as well as isolated round spermatids, exhibit a normal in situ morphology. Spermatocytes, for example, show numerous synaptonemal complexes, nuclear pores, annulate lamellae, and dictyosome-like saccules. Round spermatids after isolation exhibit peripheral mitochondria, annulate lamellae, developing acrosomes, and other morphological features characteristic of early spermiogenesis. Therefore, enriched populations of human spermatogenic cells seem suitable for analysis using immunofluorescent, autoradiographic, or serological methods. In particular, isolated human spermatocytes should be useful for the analysis of molecular events involved in meiosis and should facilitate investigations concerning the pathophysiology of certain human infertility conditions.

Effects on spermiogenesis in the mouse of a male sterile neurological mutation, Purkinje cell degeneration

Abstract: Purkinje cell degeneration (pcd) is a neurological mutation in the mouse that causes male sterility, but not female sterility. In order to assess the effects of this mutation on spermiogenesis, the structure of the testis and of epididymal spermatozoa was examined by transmission and scanning electron microscopy. In the mutant males, the sperm count was reduced, sperm were nonmotile, and 93% of the sperm were characterized by structural abnormalities of the head, the tail, or both. In the testes of mutant mice, Sertoli cell structure was normal, as were also the early stages of spermiogenesis. However, the elongating and maturing spermatids were characterized by abnormally shaped heads and tails with extraneous and ectopic outer dense fibers. These defects were common in the testes of the mutant mice and rare in the testes of the littermate control mice. It was concluded that the structural abnormalities of the pcd sperm occurred during spermiogenesis and were not due to degeneration of the sperm in the epididymis. These structural abnormalities are similar to those found in all other reported male sterile mutants of the mouse; therefore, although they are caused by the expression of the pcd gene, they are not unique to the expression of this gene.

The effects of carnitine, glycerylphosphorylcholine, caffeine, and egg yolk on the motility of rat epididymal spermatozoa

Abstract: Experiments were performed to further the understanding of epididymal processes involved in the acquisition of sperm motility. Samples of luminal contents were collected by micropuncture from four regions of the rat epididymis. These samples were incubated in various diluents to observe the effects of the diluents on sperm motility. Consonant with previous reports, 40 mM glycerylphosphorylcholine (GPC) and 60 mM DL-carnitine reduced overall motility scores of cauda epididymidal spermatozoa but did not prevent normal initiation of motility. Additionally, control sperm cells and cells treated with carnitine could reinitiate full motility after becoming immotile. Spermatozoa treated with GPC could not reinitiate motility. The sperm cells in our system thus react to GPC and carnitine in fundamentally different ways, the exact nature of which remains to be determined. Spermatozoa from the distal caput epididymidis evidenced high motility scores when diluted in a 5% egg yolk + 10 mM caffeine diluent. It was demonstrated, however, that the subjective appearance of full motility in these immature cells was not supported by actual progressive motility as measured in an assay of linear distance traveled. It was concluded that neither 10 mM caffeine, 5% egg yolk, nor their combination was sufficient to induce progressive motility in immature rat spermatozoa.

Vitelline layer lytic activity in sperm extracts of sea urchin, Hemicentrotus pulcherrimus

Abstract: A factor which dissolves the vitelline layer was extracted from sperm of the sea urchin, Hemicentrotus pulcherrimus. Turbidity of the suspension was reduced when isolated vitelline layers were mixed with this sperm factor. When the mixture was subjected to SDS polyacrylamide gel electrophoresis, some of the protein bands of the vitelline layer were seen to be missing. The lytic activity of the factor was heat labile, completely inhibited by L-1-tosyl-amide-2-phenyl-ethylchloromethyl ketone and partially inhibited by soybean trypsin inhibitor. Chymotrypsin activity was detected, but not trypsin, arylsulfatase, or glycosidase. These results suggest that a chymotrypsin-like enzyme participates in lysis of the vitelline layer by the fertilizing spermatozoon.

Acid‐extracted nuclear proteins and ultrastructure of human sperm chromatin as revealed by differential extraction with urea, mercaptoethanol, and salt

Abstract: Basic proteins were differentially extracted from the purified heads of ejaculated human sperm by successive treatment with (1) 1% Triton X-100, 1% mercaptoethanol (ME); (2) 8 M urea, 1% ME; (3) 8 M urea, 1% ME, 0.2 M NaCl; and (4) 8 M urea, 1% ME, 0.6 M NaCl. Nonhistones were extracted in the first, second, and third treatments; histones, in the second and third; and most of the protamines, in the fourth, together with DNA. Corresponding electro microscopic studies of the sperm pellets after each treatment suggest that the nucleoprotamines are discrete portions of chromatin which are organized in the form of long thick cords and oval bodies of about 400–550 A in diameter interlinked with very thin strands of fibers about 20–50 A thick, which could represent the naked DNA depleted of its constituent histones.

Isolation and characterization of two proteinase inhibitors from the male reproductive tract of mice

Abstract: Low molecular weight, acid-stable proteinase inhibitors from epididymal and seminal vesicle homogenates were isolated and characterized. The isolation procedure consisted of gel filtration, trypsin affinity, and ion exchange chromatography. The inhibitor from seminal vesicle homogenates has a molecular weight of approximately 6,200, and that of the epididymal inhibitor was estimated at 4,000. Antiserum directed against the seminal vesicle inhibitor did not react with epididymal components. The epididymal inhibitor shows competitive, whereas the seminal vesicle inhibitor shows noncompetitive inhibition against trypsin on double reciprocal plots. Both inhibitors are effective against trypsin and acrosin but not against chymotrypsin, kallikrein, thrombin, or plasmin. To verify site of origin and to investigate androgen dependency of the epididymal inhibitor, mice were efferentiectomized, orchiectomized, or orchiectomized with androgen supplementation. Gel filtration profiles of acid-treated epididymal homogenates from normal and efferentiectomized animals show inhibitor peaks in the same regions. The concentration of acid-stable inhibitor from epididymal homogenates decreased with orchiectomy but returned to normal values when exogenous androgen was supplied. These observations suggest that the low molecular weight inhibitor in the epididymal homogenates is distinct from that in the seminal vesicles. Furthermore, the inhibitor associated with epididymal homogenates is androgen-dependent, and the epididymis is the site of origin of this inhibitor.

Glycosidase and cumulus dispersal activities of acrosomal extracts from opossum (marsupial) and rabbit (eutherian) spermatozoa

Abstract: Opossum and rabbit sperm sonicates dispersed the mouse cumulus oophorus in vitro at the same rate on a per sperm basis, despite much higher activities of the glycosidic acrosomal enzymes N-acetylhexosaminidase (350 ×) and arylsulphatase (40 ×) in the opossum preparation. Activities of another glycosidase, hyaluronidase, and the protease acrosin where similar in sperm extracts from both species. However, specific inhibitors of N-acetylhexosaminidase (iodoacetate) and arylsulphatase (SO42−, PO43−) markedly reduced the rate of cumulus dispersal by rabbit sperm sonicates. These findings suggest that, while hyaluronidase action probably represents the rate-limiting (slow) step, several glycosidases act together to disperse the cumulus and in the passage of the fertilizing spermatozoon through it in eutherian mammals. The likely role of these acrosomal enzymes in the marsupial, where the ovulated oocytes lack a cumulus oophorus, is more uncertain.

The spermatogenesis of crustaceans. VII. Review of spermatozoon of the crayfish Astacus astacus (Malacostraca, Decapoda, Macrura, Reptantia)

Abstract: The star-like spermatozoon of Astacus astacus consists of a spheroidal central body around which various prolongations of same, denominated spines, are arranged. In the interior of the gamete the following parts may be distinguished: (1) The acrosomic region, formed by a complex vesicle, or thick-walled, helmetshaped body, whose opening is orientated towards the nuclear region. In the interior of the vesicle different structures can be appreciated. (2) The nuclear region, which is formed by a large cupuliform nucleus limited by a double membrane. In the nucleoplasm numerous bundles of microtubules, mixed with noncondensated chromatin fibers, are found. (3) The laminar region, present in other Decapoda, is practically nonexistent. Within the spines of these spermatozoa, only microtubules can be observed. The morphology of this crayfish is similar to that presented by Brachiura, another group of Reptantia.

Changes in mitochondrial protein composition during testicular differentiation in mouse and bull

Abstract: The morphology of testicular mitochondria changes markedly during spermatogenesis from a form normally seen in somatic cells to a “germ cell” form in which the matrix is diffuse and vacuolated and finally to a form with a condensed matrix seen in spermatozoa. Colloidal silica gel gradients and high-resolution, two-dimensional gel electrophoresis were used to define the changes in density and polypeptide composition that occur in testicular mitochondria during spermatogenesis. Similar densities were observed for mitochondria isolated from the same bovine or murine tissue, but mitochondria from different tissues usually had different densities. Mitochondria from testis of calf, bull, or sexually mature mouse had densities of 1.06 gm/cm3 while liver mitochondria were more dense, having a density of 1.09 gm/cm3. “Somatic-type” testicular mitochondria from calf and “germ cell-type” mitochondria from sexually mature mouse or bull had similar densities, 1.06 gm/cm3, while the density of mitochondria from ejaculated spermatozoa differed, ρ = 1.08 gm/cm3. Analysis of polypeptide composition of somatic and germ cell mitochondria from testes of prepuberal and sexually mature animals and from highly enriched populations of pachytene primary spermatocytes and round spermatids revealed a staining pattern of mitochondrial proteins that was markedly constant throughout development with most polypeptides being conserved and a few specific spots changing in abundance. Marked differences were detected, however, when mitochondria from ejaculated spermatozoa were compared with those from testis with many minor and major polypeptides missing and several new polypeptides present at high concentration.

Mechanism of sperm‐binding inhibition by anti‐zona antisera

Abstract: Mouse zonae pellucidae contain receptors for sperm throughout their structure since spermatozoa will bind to both the inner and outer surfaces of isolated zona fragments Antibodies raised against mechanically isolated mouse zonae pellucidae were only capable of suppressing sperm binding to the outer zona surface in association with the formation of a precipitate in this region These results indicate that such antisera are not capable of interacting directly with the sperm receptors on the zona pellucida but rely upon the less efficient mechanism of steric hindrance to prevent sperm from gaining access to the sperm binding sites

The generation and propagation of double waves in mosquito (Aedes notoscriptus) sperm‐tails

Abstract: In the mosquito Aedes notoscriptus nine accessory tubules develop from the doublets of the axoneme whose single central fibre forms late in spermiogenesis The 9 + 9 + 1 mosquito sperm-tail propagates two waves of differing frequency and amplitude The structural basis for the movement is of interest Mosquito sperm were demembranated until all movement ceased and were reactivated with a solution containing adenosine triphosphate (ATP) They immediately moved in a normal fashion Like untreated sperm, they always propagated double waves This indicates that the plasma membrane does not control the double wave After sonicating sperm treated as above, the high-frequency, low-amplitude waves sometimes propagated alone beyond a damaged region of sperm-tail, whereas the large-amplitude, low-frequency waves never propagated alone beyond a damaged region This suggests that the latter waves are generated by an anterior site, possibly the centriole or centriole adjunct The structure that propagates the large amplitude wave is not known; possibly the accessory tubules may slide against the axonemal doublets Any region of the sperm-tail is capable of generating and propagating the low-amplitude, high-frequency wave, for which the structure responsible is probably the axoneme

Optimization of culture conditions for the formation of sperm cells in pollen tubes of tradescantia

Abstract: A culture medium and culture conditions are described that enable generative cell division and sperm formation to occur in a large proportion (greater than 70%) of the pollen tubes of Tradescantia paludosa within six to eight hours of culture of pollen. The nature of the nitrogen source, speed of shaking, and ratio of pollen to medium are important parameters in determining the extent of sperm formation. Addition of the plant hormones indole acetic acid, gibberellic acid, and kinetin to the growth medium does not influence generative cell division.

Preimplantation embryonic development of spontaneous mouse parthenotes after oocyte meiotic maturation in vitro.

Abstract: Of eggs ovulated in LT/Sv mice, 10–20% undergo spontaneous parthenogenetic activation, and 40–50% of the parthenotes develop to blastocysts when cultured in simple defined medium from the one-cell stage. Similar percentages of oocytes isolated from Graafian follicles undergo parthenogenetic activation after spontaneous maturation in simple defined medium, but embryonic development proceeds no further than the two-cell stage. The simple defined medium that supported preimplantation development of ovulated eggs and spontaneous maturation of extrafollicular oocytes contained no serum, free amino acids, or vitamins. The present experiments were conducted to determine what conditions during spontaneous maturation of extrafollicular oocytes could promote the ability of oocytes to develop to blastocysts after parthenogenetic activation and mimic the environment of preovulatory follicles. Cumulus-enclosed oocytes that were matured in simple medium supplemented with fetal bovine serum (FBS) developed to blastocysts after spontaneous parthenogenetic activation. Furthermore, minimum essential medium (MEM), a complex medium containing free amino acids and vitamins, could substitute completely for FBS for maturing oocytes from (C57BL/6J × LT/Sv)F1 mice, and to a lesser extent for maturing LT/Sv oocytes. Therefore, even though germinal vesicle breakdown in mouse oocytes and preimplantation development of mouse eggs can occur in the absence of an exogenous supply of free amino acids and vitamins, a complete, or normal, mouse oocyte maturation cannot. These results also demonstrated that gonadotropins are not necessary during oocyte meiotic maturation for parthenogenetically activated eggs to develop through the preimplantation stages. Luteinizing hormone or 17β-estradiol in MEM during oocyte maturation had no effect on the subsequent development of parthenotes. In contrast, follicle stimulating hormone (FSH) and progesterone in the maturation medium decreased the number of ova that subsequently cleaved, and FSH decreased the number of cleaved eggs that developed to blastocysts.

Sperm abnormalities in the PL/J mouse strain: A description and proposed mechanism for malformation

Abstract: A high frequency (42%) of sperm from the inbred homozygous mouse strain PL/J are abnormal. Head shape abnormalities occur in 15% of the total sperm; and 27% of the sperm are headless, with the mitochondria condensed into a mass at the caudal end of the midpiece region. The sperm without heads exhibit relatively normal motility. Electron microscopy of the testes indicates that some of the abnormal sperm in PL/J males result from a failure of the paired centrioles to attain a normal position on the nucleus opposite the acrosome prior to implantation, or to attach at all. The centrioles that are not attached to the nuclear envelope can differentiate to form the principal piece and midpiece region. The frequency of headless variants in heterozygous F1 indicates that the trait is mainly recessive. The offspring from the backcross of the F1 to homozygous PL/J parents did not give a clear-cut segregation pattern. The frequency of abnormal sperm in the F1 and the backcross is higher when the female parent is a PL/J.

An automated procedure to measure DNA synthesis in preimplantation mouse embryos

Abstract: This paper describes a sensitive, reproducible, and automated procedure to measure DNA synthesis in preimplantation mouse embryos. Conditions for the DNA synthesis assay have been optimized as follows: (1) 4 μCi/ml3H-thymidine (sp. act. 20 Ci/immole); (2) a labeling period from 2 to 7 hours; (3) a 3-hour preincubation period for blastocysts and from 0 to 7 hours preincubation for 8-cell embryos; and (4) from 1 to 64 embryos per assay. The amount of DNA synthesis per embryo was found to be directly proportional to the number of cells (nuclei) per embryo. The described assay should be useful for future studies on the effect of synthetic and natural compounds on the development of preimplantation mouse embryos, as measured by perturbations in embryonic DNA synthetic activity.