The mechanisms of reversible immobilization of fowl spermatozoa at body temperature

Intact fowl spermatozoa became almost immotile at 40 degrees C, but motility increased significantly at 30 degrees C. The oxygen consumption at both temperatures was 8-11 microliters O2/10(10) spermatozoa.min-1. The ATP concentration at 40 degrees C was higher than that at 30 degrees C but ADP concentration at 30 degrees C was higher than that at 40 degrees C. Consequently, the ATP/ADP ratio at 30 degrees C (1.9-2.2) increased to 3.5-3.7 at 40 degrees C. The motility of intact spermatozoa at 40 degrees C was effectively restored by 2 mM-Ca2+, 10% seminal plasma and 10% peritoneal fluid taken at the time of ovulation. In contrast, these effectors did not restore the motility of demembranated spermatozoa at 40 degrees C. Motility of demembranated spermatozoa was restored at 30 degrees C. These results suggest that the immobilization of fowl spermatozoa at 40 degrees C occurs due to a decrease in flagellar dynein ATPase activity. Furthermore, the action of effectors for motility such as Ca2+ may not be directly on the axoneme, but mediated by solubilized substances which have been removed by demembranation of the spermatozoa.     

Regulation of the motility of fowl spermatozoa by calcium and cAMP

Using an objective light-scattering technique, it was confirmed that washed fowl spermatozoa become immotile as the temperature is raised from 30 degrees C to the normal body temperature of 40-41 degrees C. Motility of washed spermatozoa was restored at 40 degrees C by the addition of caffeine or calcium, both stimulating motility to a maximum in a dose-dependent manner. Neither effector stimulated the motility of spermatozoa at 30 degrees C. Caffeine, but not calcium, caused an increase in sperm cAMP levels at 40 degrees C. The concentrations of calcium and cAMP in untreated spermatozoa were not significantly different in samples incubated at 30 degrees C or 40 degrees C.     

Fertility of mouse spermatozoa retrieved from cadavers and maintained at 4 degrees C

After male animals die, the spermatozoa within the testis and epididymis eventually disintegrate. In this study, the motility, viability and fertility of mouse spermatozoa were examined after retrieval from the epididymis at various days after death. Cadavers were maintained in a refrigerator at 4 degrees C. About 30% of the spermatozoa collected 10 days after death were viable, but they had limited ability to fertilize oocytes in vitro. However, when the spermatozoa were injected into oocytes, the fertilization rate was over 80%. Normal live fetuses were even obtained using immotile spermatozoa retrieved 20 days after death. Therefore, when valuable male animals die unexpectedly and sperm cryopreservation is not possible immediately, temporal storage of cadavers (or epididymis and vas deferens) at 4 degrees C in a regular refrigerator followed by intracytoplasmic sperm injection may help to preserve the genome of individuals. This procedure could be particularly important in endangered species.     

Flagellar movement in demembranated preparations of ejaculated fowl spermatozoa

Triton X-100 at a concentration of 0.1% in the extraction medium was optimal for demembranating fowl spermatozoa. The most suitable conditions for reactivation were obtained when a medium composed of 0.5 mM-ATP, 25 mM-potassium glutamate, 10(-7) M-CaCl2, 20 mM-Tris-HCl(pH 7.9), 1 mM-MgSO4, 1 mM-dithiothreitol and 0.2 M-sucrose was used. More than 60% motile spermatozoa were obtained under these conditions. The addition of 1 or 10 microM-cAMP did not appreciably affect motility. Intact and demembranated spermatozoa were immotile at 40 degrees C, whilst at 30 degrees C motility was restored.     

Activation of dynein adenosine triphosphatase and flagellar motility of demembranated spermatozoa by monovalent salts at 40 degrees C in the domestic fowl, Gallus domesticus

1. At 40 degrees C, around the normal avian body temperature, demembranated fowl spermatozoa with no addition of monovalent chlorides were immotile. 2. Demembranated spermatozoa become motile at 40 degrees C when 0.1-0.5 M concentrations of NH4Cl, NaCl and KCl were added to the reactivation medium, with maximum motility occurring at 0.2-0.3 M in all cases. 3. The addition of NH4Cl, NaCl and KCl also stimulated the ATPase activity of crude dynein extract. In contrast, LiCl did not appreciably affect motility and ATPase activity. 4. These results showed that the flagellar dynein ATPase activity of fowl spermatozoa could be stimulated by the addition of certain monovalent chlorides, except LiCl, and demembranated spermatozoa might be motile at 40 degrees C.     

Stimulation of sperm motility and oxygen consumption of fowl spermatozoa by a low molecular weight fraction of seminal plasma

Washed fowl spermatozoa were incubated in a phosphate buffer containing various concentrations of fowl seminal plasma at 41 degrees C, normal body temperature, and the motility and oxygen consumption of spermatozoa were determined. Immediately after the incubation, spermatozoa showed good motility in the various diluents. However, with concentrations of seminal plasma at or below 20%, spermatozoa quickly became immotile. In contrast, at concentrations higher than 40% seminal plasma, spermatozoa were motile even after 15 min. As the concentration of seminal plasma was increased, oxygen consumption of spermatozoa also increased. A filtrate of the seminal plasma, obtained by passing the fluid through an Amicon YM-2 ultra-filtration membrane (Mr less than 1000), also stimulated the motility and oxygen consumption of spermatozoa. These results suggest that some low molecular weight factor(s) in fowl seminal plasma stimulated motility and oxygen consumption of fowl spermatozoa at 41 degrees C. A physiological role of this factor(s) may be to assist passage of spermatozoa through the vagina after natural mating.     

The possible role of protein-carboxyl methylation in the regulation of flagellar movement of fowl spermatozoa

Both intact and demembranated fowl spermatozoa were incubated at 30 degrees C and 40 degrees C with adenosine, 3-deazaadenosine and homocysteine thiolactone. This combination of products is known to block intracellular protein-carboxyl methylation reaction. The motility of intact spermatozoa incubated at 30 degrees C was vigorous but decreased markedly after the addition of 100 microM adenosine+100 microM 3-deazaadenosine+100 microM homocysteine thiolactone. During this incubation period, the intracellular ATP concentrations of spermatozoa were maintained at approximately 40 nmol ATP/10(9) cells, in spite of the inhibition of motility. The motility of demembranated spermatozoa at 30 degrees C was not inhibited by the same concentrations of blocker. At 40 degrees C, the motility of intact spermatozoa without any effectors was almost negligible. The addition of blocker did not appreciably affect the motility of spermatozoa, which remained almost negligible. In contrast, motility became vigorous even at 40 degrees C when intact spermatozoa were suspended in fluid to which had been added 1 mM CaCl(2) or 100 nM calyculin A, a specific inhibitor of protein phosphatase-type 1 and -type 2. Stimulation of motility by Ca(2+) or calyculin A was inhibited by the presence of a blocker. Contrary to that of intact spermatozoa, the motility of demembranated spermatozoa stimulated by protein phosphatase inhibitor at 40 degrees C was not inhibited by the presence of a blocker. These results suggest that protein-carboxyl methylation may be involved in the regulation of fowl sperm motility. Furthermore, it appears that the methylating enzyme may be present in the cytoplasmic matrix and/or the plasma membrane but not retained in the axoneme and/or accessory cytoskeletal components.     

Measurement of the motility of rat spermatozoa collected by micropuncture from the testis and from different regions along the epididymis.

Spermatozoa from the testis and various regions along the epididymis of the rat were collected by micropuncture and their motility after dilution was estimated over a 15-min period by using a Quantimet image analyser. The motility of sermatozoa from the rete testis and seminiferous tubules was too low to be measured. The estimate of motility of spermatozoa from the proximal caput epididymidis was much lower than that of spermatozoa from the other regions. Spermatozoa from the distal part of the caput showed sustained motility for 15 min, whereas those from the caudal region and ductus deferens, although active initially, became less active during this period.     

Temperature-mediated regulation of calcium flux and motility in fowl spermatozoa.

The motility of fowl spermatozoa at various temperatures was shown to be a function of their intracellular calcium content, measured after hypotonic lysis of the cells. Retention of calcium by spermatozoa, with consequent enhancement of motility, increased as the temperature was lowered from 40 degrees to 30 degrees C. Raising the temperature within this range subsequently reduced calcium retention and motility again. The temperature-dependent retention of calcium was a function of the rate of calcium efflux rather then influx. The temperature-sensitive efflux mechanism appeared to involve a Ca2+ ATPase which was relatively inactive at 30 degrees C, but active at 40 degrees C.     

Intracellular signal transduction pathways in the regulation of fowl sperm motility: Evidence for the involvement of phosphatidylinositol 3‐kinase (PI3‐K) cascade

The possible role of PI3‐K in the reversible temperature‐dependent immobilization of fowl sperm motility was investigated by using PI3‐K inhibitor (LY294002) and its inactive analogue (LY303511). The existence of the PI3‐K in fowl spermatozoa was also confirmed by Western blotting analysis. Fowl sperm motility in TES/NaCl buffer remained negligible at the avian body temperature of 40°C but was maintained vigorously when the temperature was decreased to 30°C. At 30°C, no stimulation or inhibition of motility was observed after the addition of 2 mM CaCl₂ and 10 µM LY294002 or LY303511: around 70–80% of spermatozoa remained motile. In contrast, at 40°C, the motility of spermatozoa was activated immediately after the addition of Ca²⁺, but the subsequent addition of LY294002 inhibited the motility again. The addition of LY303511 did not appreciably affect the Ca²⁺‐supplemented sperm motility, which was maintained for at least 15 min. The ATP concentrations of spermatozoa after the addition of LY294002 + Ca²⁺ or LY303511 + Ca²⁺ were almost the same values compared with those of Ca²⁺ alone at 40°C, suggesting that the addition of LY294002 was not simply affecting membrane damage or inhibiting energy production in the spermatozoa, but may be acting on some part of the motility‐regulating cascade. Immunoblotting of sperm extract using an antibody to PI3‐K revealed a major cross‐reacting protein of 85 kDa, which corresponds to the molecular weight of the subunit of PI3‐K. These results suggest that PI3‐K may be positively involved in the calcium‐regulated maintenance of flagellar movement of fowl spermatozoa at 40°C. Mol. Reprod. Dev. 76: 603–610, 2009. © 2008 Wiley‐Liss, Inc.     

Regulation of flagellar motility by temperature-dependent phosphorylation of a 43 kDa axonemal protein in fowl spermatozoa.

Phosphorylation of fowl sperm proteins was analyzed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) after incubating the demembranated spermatozoa with [gamma-32P]ATP at 30 degrees C or 40 degrees C. A marked difference of phosphorylation between 30 degrees C and 40 degrees C was observed in a 43 kDa protein. This protein was slightly phosphorylated at 40 degrees C, but strongly phosphorylated at 30 degrees C in a cAMP-independent manner. The motility of demembranated spermatozoa was negligible at 40 degrees C, but vigorous movement was observed at 30 degrees C. These results showed that phosphorylation of a 43 kDa protein is likely to be a regulatory step in the maintenance of fowl sperm motility.     

Microanatomy of the testes and testicular ducts of the butterfly lizard,Leiolepis ocellata Peters, 1971 (Reptilia: Squamata: Agamidae) during the active reproductive period

The microanatomy of the testes and testicular ducts (rete testis, ductuli efferentes, ductus epididymis and ductus deferens) of Leiolepis ocellata (Agamidae) was investigated using light microscopy including histochemistry. Each testis contains seminiferous tubules and interstitial tissues. The former house spermatogenic cells (spermatogonia A & B, preleptotene, primary and secondary spermatocytes, spermatids (steps 1–8) and spermatozoa) and Sertoli cells, while the latter comprise peritubular and intersitial tissues. The rete testis is an anastomosing duct, having intratesticular and extratesticular portions. The proximal region of ductuli efferentes has wider outer ductal and luminal diameters than those of the distal region. The convoluted ductus epididymis is subdivided into four regions (initial segment, caput, corpus and cauda), based on the ductal diameter, epithelium characteristics and cell components. The ductus deferens has the greatest diameter and is divided into the ductal and ampulla ductus deferens. The ductal portion is subdivided into the proximal and distal regions, based on the epithelium types and ductal diameters. The ampulla ductus deferens is a fibromuscular tube, having numerous mucosal folds projecting into the lumen. Spermiophagy is detectable in the ductus epididymis and ductus deferens. The present results contribute to improved fundamental knowledge on the microanatomy of the reptilian reproductive system.     

Motility of undiluted bull epididymal spermatozoa collected by micropuncture

Motility of whole undiluted semen collected from different regions of the bull epididymis by micropuncture was determined by examining a droplet under paraffin oil. Bull caudal spermatozoa showed vigorous motility in undiluted semen. This motility was less in samples collected from nearer the testis: samples from the distal caput showed weak but detectable motility while those from the proximal and mid-caput were completely quiescent. Motility of spermatozoa from the distal caput and the proximal corpus was markedly increased after incubation at 34 or 37 degrees C for 1 h, but was depressed by incubation at 25 degrees C. Similar but smaller effects were observed with spermatozoa collected from the mid-corpus and the mid-cauda, except that motility of spermatozoa from the mid-corpus was reduced after incubation for 1 h at 37 degrees C. The inhibitory effect of low temperature was completely reversible. Incubation of caudal spermatozoa under anaerobic conditions produced partial and reversible inhibition of sperm motility. The results suggested that bull epididymal spermatozoa may not be completely quiescent in their native environment as previously assumed.     

Fertilizing capacity and ultrastructure of fowl and turkey spermatozoa before and after freezing.

The fertilizing capacity, motility and ultrastructure of fowl and turkey spermatozoa were examined at various stages of the freezing process. For both species, fertility and motility were depressed after equilibration with dimethyl-sulphoxide at 5 degrees C. After freezing, motility was maintained at 55% for fowl spermatozoa and 40% for turkey spermatozoa; however, fertility was 55% for the fowl and 0% for the turkey. Qualitatively, the damage to the spermatozoa of both species was nearly identical, as revealed by scanning and transmission electron microscopy. The plasmalemma was the primary site of damage. 'Bent' spermatozoa, coiled tails and swollen mitochondria were also present. Damage to the acrosome was only observed in spermatozoa which had been frozen to -180 degrees or -196 degrees C. These changes were attributed to adverse osmotic conditions. Binding of cationic ferritin to the plasmalemma of spermatozoa from both species remained unaltered.     

Effects of taurine on the motility and intracellular free Ca2+ concentration of fowl spermatozoa in vitro

The effects of taurine on the motility and intracellular free Ca2+ concentration of fowl spermatozoa were investigated in vitro. The addition of taurine, within the range of 0-5 mmol l(-1), did not appreciably affect the motility of intact fowl spermatozoa. Motility remained almost negligible at 40 degrees C, while vigorous movement was observed at 25 degrees C. Even with the addition of Ca2+ before the addition of taurine, neither stimulation nor inhibition of motility was observed compared with the control (no addition of taurine). Similar results were obtained by the addition of taurine and calyculin A, a specific inhibitor of protein phosphatases. There were no changes in intracellular free Ca2+ concentrations, measured by a fluorescent Ca2+ indicator, fura-2, in taurine-treated spermatozoa. These results suggest that taurine is not involved in the regulation of fowl sperm motility and metabolism by intracellular Ca2+ mobilization in vitro.     

In vitro effects of beta-carotene for the motility, ATP, and intracellular free Ca(2+) concentrations of fowl spermatozoa

The motility of intact fowl spermatozoa was vigorous at 25 degrees C, but decreased gradually following the addition of 0-100 microM beta-carotene in a dose-dependent manner. Even in the presence of stimulators of fowl sperm motility, such as Ca(2+) or calyculin A, the motility of intact spermatozoa at both 25 and 40 degrees C remained inhibited following the addition of beta-carotene. Under all of these circumstances, sperm ATP concentrations were not reduced by the addition of beta-carotene. Moreover, the motility of demembranated spermatozoa was not inhibited by the addition of the same concentrations of beta-carotene. No changes in intracellular free Ca(2+) concentrations, measured by means of a fluorescent Ca(2+) indicator, fura-2, were observed in intact beta-carotene -treated spermatozoa. These results suggest that beta-carotene is involved in the inhibition of the flagellar movement of fowl spermatozoa without change in energy production, and that the target of beta-carotene might be present in the cytoplasmic matrix and/or the plasma membrane, but not retained in the axoneme and/or accessory cytoskeletal components.     

Maturational changes in motility, acrosomal proteolytic activity, and penetrability of the inner perivitelline layer of fowl sperm, during their passage through the male genital tract

The objective was to examine, in vitro, the motility, acrosomal proteolytic activity (APA), and penetrating ability of fowl sperm recovered from the testis and epididymis, as well as the proximal, middle, and distal vas deferens, to assess the potential fertilizing ability of sperm as a function of maturation. A motile sperm separation technique was used to estimate sperm motility with Accudenz, a gelatin slide technique was used to measure the diameter of the halo around the acrosome of individual sperm as an indication of APA, and a sperm-inner perivitelline layer (IPL) interaction assay was done to estimate the number of hole formations as an indication of sperm penetration into the IPL. Sperm in the testis exhibited the least motility, produced the smallest halos, and created the least number of holes per 0.25 mm². Motility, diameter of the halo, and number of holes increased gradually (P < 0.05) from the epididymis to the distal vas deferens and were markedly different (P < 0.05) between testicular and deferent duct sperm. Based on these in vitro experimental findings, we inferred that fowl sperm undergo a gradual process of maturational changes in motility, APA, and penetrability as a means of acquiring potential fertility during their passage throughout the male genital tract.     

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

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.     

Scrotal heat stress effects on sperm viability, sperm DNA integrity, and the offspring sex ratio in mice

Evidence exists to suggest detrimental effects of heat stress on male fertility. This study was designed to assess the effects of scrotal heat stress on mature and developing sperm in a mouse model. After receiving shock heat treatment (42 degrees C for 30 min), mature spermatozoa were recovered from the epididymis hours (6) or Days (7, 14, 21, 28, 60) later, to determine the variables: number of spermatozoa, sperm viability, motility and progressive motility, sperm DNA integrity as established by the TUNEL method, embryo implantation rate, and sex ratio of the fetuses conceived using the heat-exposed spermatozoa. Our results indicate that transient mild heat treatment does not affect in the same way the different types of male germ cells. Spermatocytes present within the testis at the time of heat stress resulted into a lower concentration of spermatozoa with reduced viability and low motility. Even though, DNA integrity of spermatozoa resulting from spermatocytes was also compromised by heat stress, the higher degree of DNA damage was found among spermatozoa resulting from spermatids present within the testis at the time of heat stress. At last, heat shock effect on spermatozoa present in the epididymis at the time of thermal stress resulted into a sex ratio distortion. These findings point to a higher sensitivity of spermatocytes to heat exposure and also suggest a different response of X and Y chromosome-bearing spermatozoa to heat stress that warrants further investigation.     

Metabolism of intratesticular spermatozoa of a tropical teleost fish (Clarias gariepinus)

Sperm metabolism of a tropical fish species, the African catfish, Clarias gariepinus, was studied by measurements of sperm enzyme activity and metabolite levels. We also analysed the effect of metabolites, co-enzymes and enzymatic blockers on sperm motility behaviour and viability. Similar to other teleostean species, African catfish spermatozoa have the capacity for glycolysis, tricarboxylic acid cycle, oxidative phosphorylation, lipid catabolism, beta-oxidation and osmoregulation. In immotile spermatozoa, lipid catabolism, beta-oxidation, the tricarboxylic acid cycle and oxidative phosphorylation were important primary energy-delivering pathways; sperm oxygen consumption was 0.39-0.85 microg O(2)/min/ ml of testicular semen. During motility, glycolysis, lipid catabolism and beta-oxidation of fatty acids occurred simultaneously, which is atypical for teleosts, and the spermatozoal respiration rate increased drastically by 15-25-fold. Also in contrast to other teleostean sperm cells, ATP levels remained stable during motility and immotile storage. The sperm cell status was unstable in the African catfish. Although the spermatozoa have osmoregulation ability, and even though balanced physiological saline solutions were used for sperm motility activation and sperm incubation, the motility and viability of spermatozoa quickly decreased at 28 degrees C, the spawning temperature of the African catfish. Cyclic AMP and inhibition of phosphodiesterase activity could not prolong sperm motility and viability. In contrast, at 6-10 degrees C motility was prolonged from approximately 30 s to >5 min, probably due to decreased metabolic rates.