Regulation of bovine sperm motility and cyclic adenosine 3',5'-monophosphate by adenosine and its analogues

Cyclic adenosine 3',5'-monophosphate (cAMP) is known to mediate mammalian sperm function. Progress in understanding the mechanism of the control of cAMP levels in mammalian sperm has been hampered, however, by an inability to identify a physiological regulator of adenylate cyclase. In this report we provide evidence that adenosine, 2'-deoxyadenosine, and a number of other adenosine analogues that activate adenylate cyclase in other tissues stimulate bovine caudal sperm motility, and we suggest that they do so through elevation of cAMP levels. We have demonstrated that these compounds elevate cAMP levels in and stimulate the motility of mature bovine caudal sperm in the same concentration range (20-300 microM). In addition, we report that these same nucleosides, under appropriate conditions, elevate cAMP levels and initiate motility in immature caput sperm. Adenosine analogue structure-activity relationships carried out with caudal sperm indicate that substitution at position 2 in the purine ring in the adenosine molecule leads to enhanced activity, while substitution at the N-6 amino group reduces potency. Nucleosides that do not stimulate motility in caudal sperm do not elevate cAMP levels. We postulate that adenosine is a physiological regulator of sperm motility and suggest that it and its analogues owe their action to elevation of cAMP levels.     

Changes in the mitochondrial calcium influx and efflux properties are responsible for the decline in sperm calcium during epididymal maturation

This study was undertaken to determine the role of calcium ion, a key regulator of the intensity and form of motility in mature demembranated sperm, in the development of motility during passage through the bovine epididymis. Cellular calcium levels in bovine caput and cauda epididymal spermatozoa were measured with three different techniques. 45Ca2+ uptake measurements revealed that net calcium uptake and Ca2(+)-Ca2+ exchange in caput spermatozoa were about 2 to 3 times higher than in caudal spermatozoa. Intracellular free calcium determination with the calcium fluorophore Fura 2 showed that the levels were 6 times higher in caput spermatozoa. The values for caput and caudal sperm were 875 +/- 55 nM (n = 15) and 155 +/- 6 nM (n = 24), respectively. Total cellular calcium levels quantitated by atomic absorption were 626 +/- 30 (n = 48) and 304 +/- 19 (n = 46) ng/10(8) sperm in caput and caudal epididymal sperm, respectively. At least one of the reasons for the high calcium content of caput epididymal sperm is the result of a higher rate and extent of mitochondrial calcium accumulation in caput compared to caudal sperm. Mitochondrial calcium uptake rates measured in digitonin permeabilized cells revealed uptake rates 2- to 3-fold higher in caput compared to caudal sperm. However, mitochondrial calcium efflux rates were identical in caput and caudal epididymal sperm. The efflux rates in both cell types were unaffected by external sodium levels but were found to be proportional to pH. Alkalinization or acidification of internal pH of intact sperm resulted in a corresponding lowering or elevation of cytoplasmic free calcium levels.(ABSTRACT TRUNCATED AT 250 WORDS)     

Relationship between calcium,cyclic AMP,ATP, and intracellular pH and the capacity of hamster spermatozoa to express hyperactivated motility

Capacitation of hamster caudal spermatozoa at a density of 1 × 10⁶/ml is associated with a progressive rise in cAMP levels that precedes the onset of hyperactivated motility. This increase is not expressed by caput spermatozoa incubated under identical conditions. Both the incidence of hyperactivation and the rise in cAMP levels are severely attenuated in the absence of exogenous calcium. Neither factor is restored to control levels by the addition of the phosphodiesterase inhibitor IBMX, although in the presence of exogenous calcium, this reagent increased cAMP levels, stimulated percentage motility and advanced the appearance of hyperactivation. Treatment of spermatozoa at a density of 1 × 10⁶/ml with the calmodulin antagonist, calmidazolium (CZ), caused severe disruption of sperm motility and abolished hyperactivation, while causing only a slight reduction in cAMP content. Addition of IBMX in the presence of CZ elevated cAMP content to levels higher than normally observed during capacitation but did not restore either coordinated or hyperactivated motility. To determine both the mechanisms responsible for this elevation of cAMP content and the changes that occur during epididymal maturation to facilitate the expression of this increase, the free cytosolic calcium concentration, ATP levels, and intracellular pH of caput and caudal cells were compared. The calcium content of caudal spermatozoa rose significantly at a time when cAMP levels were increasing, while ATP content and intracellular pH fell. However, the inability of caput spermatozoa to express a rise in cAMP content was not due to deficiencies in any of these factors. These results indicate a positive role for the cAMP rise in the expression of hyperactivated motility and that the fundamental control mechanism governing both these events may be the influx of calcium that accompanies capacitation in this species.     

Induction and enhancement of progressive motility in hamster caput epididymal spermatozoa

Progressive motility was induced in hamster caput epididymal spermatozoa incubated in Tyrodes medium containing 50 mM theophylline, 1.0% Fraction V bovine serum albumin, and 15% (v/v) heat-treated human seminal plasma. Under these induction conditions, however, the maximum percent of caput spermatozoa exhibiting progressive motility (21%) and the time during which motility was sustained (120 min) were significantly less (p less than 0.05) than that of controls from the cauda epididymidis. Moreover, in contrast to caudal spermatozoa, the majority of the induced caput spermatozoa exhibited some degree of flagellar bending at the neck or midpiece. In subsequent experiments the procedure for motility induction was modified to achieve levels of motility in caput spermatozoa equivalent to those observed for caudal spermatozoa. The addition of 5 microM diamide, a sulfhydryl oxidant, to the induction medium prevented the flagellar angularity observed in induced caput sperm preparations. The percentage of caput spermatozoa induced to progressive motility was increased to levels characteristic of caudal spermatozoa (48%) by the addition of hamster caudal epididymal fluid (CEF) to the induction medium. Finally, the viability of the induced caput spermatozoa was significantly enhanced (p less than 0.05) by the removal of Fraction V albumin from the induction medium. In the presence of CEF and in the absence of albumin, 50% of the caput spermatozoa acquired progressive motility and sustained this motility for 4 h. Moreover, when fatty acid-free, charcoal-extracted albumin instead of Fraction V albumin was utilized in the induction procedure, a maximum of 43% of the caput spermatozoa acquired progressive motility and maintained this motility for 4 h, suggesting that the decreased sperm viability observed in the presence of Fraction V albumin was due to a contaminant of albumin, possibly fatty acids. The studies described herein demonstrate for the first time that immature quiescent caput epididymal spermatozoa can be induced to acquire progressive and sustained motility equivalent to that observed in mature caudal epididymal spermatozoa.     

Water insoluble fraction of egg yolk maintains porcine sperm motility by activating adenylate cyclase.

The decrease in motility of porcine cauda epididymal sperm was less than that of caput epididymal sperm in the medium containing bicarbonate. This may be due to the difference of sensitivity of adenylate cyclase to bicarbonate between mature and immature sperm; activation of mature sperm enzyme by bicarbonate was higher than that of immature sperm. Nondialysable fraction of egg yolk prevented the decrease in motility of immature sperm in the presence of bicarbonate, but it was not effective for the motility of mature sperm under the same condition, because only bicarbonate is sufficient for the maintenance of its motility. In the absence of bicarbonate, both mature and immature sperm required egg yolk to maintain motility. The favorable effect of egg yolk on the motility is ascribed to the enhancement of intracellular cAMP level. Partial fractionation of egg yolk showed that water-insoluble lipoprotein fraction contains factor(s) which activates adenylate cyclase in sperm plasma membrane. This is the first report in which high molecular weight activator of the sperm enzyme was demonstrated.     

Effects of cyclic AMP on the motility of mature and immature hamster epididymal spermatozoa studied by reactivation of the demembranated cells

Hamster spermatozoa from the caput and cauda epididymides were demembranated with 0.04% Triton X-100 and reactivated with 1 mM ATP. Motility parameters were analysed by video recording and stroboscopic photography. In the absence of added cAMP, reactivated cauda sperm showed percentage motility and forward swimming patterns similar to those of intact cells, but velocities were lower. When 2 or 20 μM cAMP was present, the velocities were increased but there was no effect on beat frequencies or percentage of forward progressing sperm. Cyclic AMP also markedly increased the percentage of cauda sperm which at first displayed nonprogressive “looping” movement. Addition of cAMP to the reactivation medium greatly improved the otherwise feeble and irregular motility of the demembranated caput sperm by increasing the percentage motility and beat frequencies of nonprogressive cells. It also induced forward motility with beat frequencies and velocities similar to cauda sperm reactivated in the absence of cAMP, but looping was never seen, indicating a change in the flagellar apparatus with maturation. The time required for the exhibition of the cAMP effects was reduced when caput sperm were reactivated in extracts of another previously maximally reactivated caput sperm preparation. The results suggest the production of some potent compound(s) by the axonemes for the manifestation of the cAMP effects.     

Inhibition of bovine spermatozoa by caudal epididymal fluid: II. Interaction of pH and a quiescence factor

Previous studies (Carr and Acott , 1984) indicate that bovine sperm are maintained in a quiescent state in the caudal epididymis (CE) by a pH-dependent inhibitory factor. Here, we have determined that the pH of bovine CE fluid and of CE semen is approximately 5.8, and that the motility of CE sperm in undiluted CE fluid increases as the pH is elevated. Therefore, the acidity of CE fluid may play a physiological role in the maintenance of sperm quiescence. The changes in sperm motility, in response to changes in the pH of CE fluid, are reversible and rapid. Dilution of CE fluid with buffers at either pH 5.5 or 7.6 produces a much slower initiation of motility. In buffer a significantly lower pH is required to inhibit sperm motility than is required in CE fluid. The apparent pKs for inhibition are 5.3 in buffer and 6.6 in CE fluid. However, the motility of sperm in buffers that contain lactate, shows a pH dependence similar to sperm in CE fluid. That is, lactate inactivates sperm in buffer at pH 5.5 but not at pH 7.6. Lactate, and several other permeant weak acids, have previously been shown to reduce the intracellular pH of bovine sperm and many other types of cells. We show that these permeant weak acids, but not impermeant weak acids, reversibly reduce CE sperm motility in buffer at pH 5.5 but not at pH 7.6. Weak bases, which have previously been shown to elevate intracellular pH, initiate sperm motility in CE fluid. These results suggest that intracellular pH can regulate CE sperm motility and may be the intracellular messenger for the pH-dependent quiescence factor. Although sperm cyclic AMP levels have been previously correlated with motility stimulation, cyclic AMP levels do not change when the pH of CE fluid is elevated, even though full motility is initiated.     

Mechanism for procaine-mediated hyperactivated motility in guinea pig spermatozoa

Hyperactivated motility was studied in guinea pig spermatozoa. In the presence of the local anesthetic procaine, a high number of sperm cells (64%) showed hyperactivation when incubated in minimal culture medium with pyruvate, lactate, and glucose. Hyperactivated motility was dependent on glucose in the medium. Sperm ATP concentration was increased twofold in hyperactivated sperm when compared to procaine-treated nonhyperactivated cells. cAMP levels were also higher in hyperactivated cells than in control spermatozoa. Thus, in living spermatozoa high levels of ATP appear to be needed to generate hyperactivation. cAMP is present at a high concentration in hyperactivated spermatozoa, therefore a role of cAMP in hyperactivation cannot be excluded. Depletion of external Ca²⁺ did not inhibit procaine-induced hyperactivated motility. Hence, procaine canceled the requirement of external Ca²⁺ for sperm to express hyperactivated motility. © 1994 Wiley-Liss, Inc.     

腺嘌呤核苷脱氨酶及核苷运转系统对精子运动的调节作用

 腺嘌呤核苷(ADO)和它的类似物2-Cl-ADO对牛附睾尾部精子的运动有刺激作用,为了探讨ADO及其类似物对精子运动调节作用的机理,我们从ADO受体,核苷运转系统(NTS)及腺苷脱氨酶(ADA)三个方面对牛附睾尾部的精子进行了研究。我们发现腺苷受体不存在于牛精子膜上,但ADA和NTS以膜蛋白的形式结合在精子膜上,并对精子体内的ADO浓度起调节作用。我们的结论是ADO及其类似物对牛精子运动的调节作用是首先通过精子膜上的ADA和NTS影响精子体内的ADO浓度,进而ADO又通过调节钙离子浓度刺激牛精子运动。     

A requirement of bicarbonate for Ca2+-induced elevations of cyclic AMP in guinea pig spermatozoa

Ca2+ causes less than 2-fold elevations of guinea pig sperm cyclic AMP concentrations when cells are incubated in a minimal culture medium in the absence of bicarbonate (HCO3-). However, in the presence of HCO3-, Ca2+ increases cyclic AMP by as much as 25-fold within 1 min. The (Ca2+, HCO3-)-induced elevations occur in either the presence or absence of the permeant anions, pyruvate and lactate. In the absence of extracellular Ca2+, HCO3- elevates cyclic AMP only slightly. The effect of HCO3- is concentration-dependent, with maximal responses obtained at concentrations of greater than 25 mM. Ca2+ (25 mM HCO3-) at concentrations of less than 100 microM causes one-half-maximal elevations of cyclic AMP. The (Ca2+, HCO3-)-induced elevations of cyclic AMP are observed at various extracellular pH values (7.5-8.5) and in the presence or absence of extracellular Na+ or K+. NH4Cl does not elevate sperm cyclic AMP concentrations and does not greatly alter the (Ca2+, HCO3-)-induced elevations. the putative Ca2+ transport antagonist, D-600 (100 microM), completely blocks the (Ca2+, HCO3-)-induced elevations of cyclic AMP. A23187, in the presence but not in the absence of extracellular Ca2+, increases sperm cyclic AMP but does not further elevate cyclic AMP in HCO3(-)-treated cells. These studies establish that Ca2+-dependent elevations of cyclic AMp in guinea pig spermatozoa are dependent on the presence of HCO3- and suggest that HCO3- is required for the uptake (exchange) or membrane sequestration of small amounts of physiologically active Ca2+.     

Movement characteristics of bovine epididymal spermatozoa: effects of forward motility protein and epididymal maturation

Movement characteristics of untreated bovine caudal epididymal spermatozoa were compared by high-speed cinemicrography with those of theophylline-activated caput epididymal spermatozoa with and without added forward motility protein (FMP). Comparison of individual movement characteristics clearly established the importance of FMP in converting the nonprogressive motility of theophylline-activated caput sperm into the progressive swimming of mature caudal sperm. Although the total or curvilinear distance traveled in 1 sec by theophylline-activated caput sperm was not changed by the addition of FMP, the linear progression was doubled and the percentage of progressively motile sperm was tripled by this protein. Untreated caudal sperm were 80% motile and theophylline-activated caput sperm were nearly 50% motile; the percentage of motile sperm that were progressive was the same for theophylline-activated caput sperm with FMP and for untreated caudal sperm. Caput sperm without FMP roll infrequently, if at all, but caput sperm with FMP and caudal sperm roll at 4.7 Hz. The beat frequency increases significantly with the addition of FMP and is even higher for caudal sperm. The hydrodynamic power output rises concomitantly with the beat frequency. Perhaps the most striking difference between caput sperm without FMP and those with it is in the swimming paths they follow. Caput sperm without FMP exhibit frequent reversals in direction, or yawing of the sperm heads as they loop back and cross over their tails in an apparently very flexible bending. Their average swimming paths are circles. Caput sperm with FMP and caudal sperm do not show this behavior, but swim in average paths which are linear. The minimum radius of curvature of the tail of caput sperm without FMP is much smaller than that for the other two cell types. These studies clarify the role of FMP in epididymal development of sperm motility.     

The interaction of pH and cyclic adenosine 3',5'-monophosphate on activation of motility in Triton X-100 extracted bull sperm

The motility of demembranated bull sperm was found to be governed by the concentrations of cyclic adenosine 3', 5'-monophosphate (cAMP) and Ca2+ at low pH (6.6-7.1), and was less sensitive to these variables at higher pH (7.4-7.8). Although motility was generally found to increase with increasing pH in the range from 6.6 to 7.8, the addition of exogenous cAMP markedly and selectively improved the motility at the lower end of the range (pH 6.6-7.1). In the presence of 10 microM cAMP, low Ca2+ (8.0 X 10(-8) M), and a high concentration of Mg-adenosine 5'-triphosphate (ATP, 8 mM), demembranated sperm at pH 6.8 and 7.1 exhibited swimming similar to that of live ejaculated sperm. At a free Ca2+ concentration of 4.4 X 10(-5) M, the motility was rapidly inhibited at pH 6.8-7.1, whereas at pH 7.4-7.8, the activity was not greatly affected. Since calcium is known to antagonize the cAMP pathway by activating Ca2+-dependent phosphodiesterase and Ca2+-dependent phosphatase, this further supports the idea that cAMP-dependent activation is crucial for motility at low pH. Our results demonstrate that the flagellar axoneme can function normally at relatively acidic pH, and produce vigorous swimming at high levels of ATP. The ATP content of live sperm was measured and found to be high enough (approximately 8 mM) to support the vigorous motility seen at pH 6.6-7.1 in the models.(ABSTRACT TRUNCATED AT 250 WORDS)     

Methylxanthines stimulate calcium transport and inhibit cyclic nucleotide phosphodiesterases in abalone sperm

Experiments were designed to determine the mechanism by which methylxanthines elevate abalone sperm cAMP concentrations and induce the acrosome reaction (AR). Theophylline or, more effectively, 1-methyl-3-isobutylxanthine (MIX) inhibit the cyclic nucleotide phosphodiesterase activities of abalone sperm homogenates. 45Ca2+ uptake by sperm is also stimulated by theophylline, and more effectively by MIX, and this stimulatory effect is blocked by KCN. Verapamil, a compound known to antagonize Ca2+ conductance, has no effect on the Ca2+ or MIX-induced cAMP elevation at concentrations up to 200 microM. However, verapamil reduces the sperm cAMP elevation caused by the addition of Ca2+ plus MIX. This inhibition is not complete, even at 200 microM verapamil. The AR induced by Ca2+ plus MIX is completely inhibited by 200 microM verapamil. The data suggest that these methylxanthines elevate abalone sperm cyclic nucleotide concentrations by inhibiting cyclic nucleotide phosphodiesterase activities. Furthermore, since sperm cAMP metabolism is modulated by Ca2+ flux, methylxanthines also appear to elevate abalone sperm cAMP concentrations by their effects on Ca2+ transport. The Ca2+-induced cAMP elevation occurs through a verapamil-insensitive mechanism, whereas the potentiation by MIX of the Ca2+ effect to elevate cAMP occurs through both verapamil-insensitive and -sensitive mechanisms. The methylxanthine-induced AR is mediated by a primary effect on Ca2+ transport and occurs through a verapamil-sensitive mechanism. Cyclic AMP may play a role in the methylxanthine-induced AR, but does not appear to act as the primary mediator of this exocytotic event.     

Changes in Carboxy Methylation and Tyrosine Phosphorylation of Protein Phosphatase PP2A Are Associated with Epididymal Sperm Maturation and Motility

Mammalian sperm contain the serine/threonine phosphatases PP1γ2 and PP2A. The role of sperm PP1γ2 is relatively well studied. Here we confirm the presence of PP2A in sperm and show that it undergoes marked changes in methylation (leucine 309), tyrosine phosphorylation (tyrosine 307) and catalytic activity during epididymal sperm maturation. Spermatozoa isolated from proximal caput, distal caput and caudal regions of the epididymis contain equal immuno-reactive amounts of PP2A. Using demethyl sensitive antibodies we show that PP2A is methylated at its carboxy terminus in sperm from the distal caput and caudal regions but not in sperm from the proximal caput region of the epididymis. The methylation status of PP2A was confirmed by isolation of PP2A with microcystin agarose followed by alkali treatment, which causes hydrolysis of protein carboxy methyl esters. Tyrosine phosphorylation of sperm PP2A varied inversely with methylation. That is, PP2A was tyrosine phosphorylated when it was demethylated but not when methylated. PP2A demethylation and its reciprocal tyrosine phosphorylation were also affected by treatment of sperm with L-homocysteine and adenosine, which are known to elevate intracellular S-adenosylhomocysteine, a feedback inhibitor of methyltransferases. Catalytic activity of PP2A declined during epididymal sperm maturation. Inhibition of PP2A by okadaic acid or by incubation of caudal epididymal spermatozoa with L-homocysteine and adenosine resulted in increase of sperm motility parameters including percent motility, velocity, and lateral head amplitude. Demethylation or pharmacological inhibition of PP2A also leads to an increase in phosphorylation of glycogen synthase kinase-3 (GSK3). Our results show for the first time that changes in PP2A activity due to methylation and tyrosine phosphorylation occur in sperm and that these changes may play an important role in the regulation of sperm function.     

Intracellular signal transduction mechanisms of rat epididymal spermatozoa and their relationship to motility and metabolism

The role of intracellular signal transduction mechanisms in regulating the motility and metabolism of rat spermatozoa in undiluted caudal epididymal fluid (CEF) was examined. Samples of CEF containing immotile spermatozoa were exposed to drugs and other agents that either stimulate signal transduction pathways or mimic the action of their second messengers. Under these conditions, sperm motility in 25–30 nl of CEF was stimulated by calcium ions (Ca²⁺), N,2′ -O-dibutyryl-guanosine 3′:5′ -cyclic monophosphate (dibutryl cGMP), cyclic adenosine 3′:5′-monophosphate (cAMP), N⁶,2′-O-dibutyryladenosine 3′:5′ -cyclic monophosphate (dibutyryl cAMP), 8-bromoadenosine 3′:5′ -cyclic monophosphate (8-bromo cAMP), caffeine, theophylline and bicarbonate ions (HCO₃^?). Other agents such as magnesium ions (Mg²⁺), veratridine, phospholipase C (PLC), ionophore A23187, 1,2-dioctenoyl-sn-glycerol (DAG), phorbol 12-myristate 13-acetate, phospholipase A₂ (PLA₂), arachidonic acid, and melittin did not significantly influence motility. In the presence of radiolabelled energy substrates, untreated (immotile) spermatozoa in samples of CEF utilised D-[U-¹⁴C]glucose and [1-¹⁴C]acetate as exogenous energy sources for oxidative metabolism. No detectable ¹⁴C-lactate was produced, and none of the drugs altered the rate of glycolytic or oxidative metabolism. The findings suggest that the motility of rat caudal epididymal spermatozoa is regulated by Ca²⁺ and the guanylate cyclase and adenylate cyclase pathways, but not through the PLC and PLA₂ pathways. Also, their metabolism of exogenous substrate was uncoupled from the induction of motility, and their oxidative capacity exceeded the rate of flux of glucose-carbon through the glycolytic pathway. © 1994 Wiley-Liss, Inc.     

Alterations in primate sperm motility with maturation and during exposure to theophylline

Micropuncture was used to collect pure suspensions of sperm from the caput and cauda regions of chimpanzee epididymides, which were analyzed with a Motion Analysis VP-110. Sperm recovered from the caput region showed no forward motility. Incubation of these sperm with cauda epididymal fluid affected motility in 62%–90% of the sperm. Dilution of cauda sperm into buffer containing >50 mM theophylline resulted in immediate initiation of progressive forward motility. Although this motility was maintained by at least 50% of the sperm for over 5 hr, these “activated” caput sperm did not penetrate zona-free hamster ova. These data show that sperm from the caput epididymis of the chimpanzee have the capacity for normal motility but do not have the capacity to bind to and penetrate an ovum. Cauda epididymal chimpanzee sperm were motile at the time of recovery and this motility was maintained for over 5 hr. These sperm penetrated both hamster zona-free ova and intact chimpanzee ova. These data show that sperm from the cauda epididymis of the chimpanzee have the capacity for normal motility and also have the capacity to bind to and penetrate an ovum. This is the first use of computer assisted analysis to quantify motility in maturing nonhuman primate sperm.     

Effect of cyclic AMP on fructose utilization, progressive motility and protein synthesis by ram spermatozoa

Ejaculated washed ram spermatozoa showed consistent increases in the intracellular concentration of cyclic 3', 5'-adenosine monophosphate (cAMP) after incubation for 15 minutes with the phosphodiesterase (PDE)-inhibitors, theophylline and caffeine. In vitro addition of cAMP or PDE-inhibitors to ram semen also stimulated and maintained sperm motility and enhanced the rate of fructose utilization. The same doses of cAMP or theophylline significantly stimulated the rate of protein synthesis by the washed spermatozoa, while the PDE-stimulator, imidazole, inhibited protein synthesis significantly. The stimulatory effect of cAMP on sperm protein synthesis was not affected by cycloheximide, but was abolished by the mitochondrial inhibitor, chloramphenicol. The present results indicate a positive correlation between the intracellular concentration of cAMP and the rates of progressive motility, fructose utilization, and protein synthesis by ram spermatozoa. The results suggest that the effect of cAMP is associated with the synthesis of mitochndrial proteins which may be involved with the observed enhancement of sperm motility and metabolism. The data also indicate that cAMP map act either as a first or a second messenger in mature spermatoza.     

Role of calcium in regulating intracellular pH following the stepwise release of the metabolic blocks at first-meiotic prophase and second-meiotic metaphase in amphibian oocytes

31P-NMR has been used to monitor changes in intracellular pH following the sequential release of the block at first-meiotic prophase by hormones and the block at second-meiotic metaphase by fertilization in Rana eggs and oocytes. The broad phosphoprotein signal was eliminated by a combination of spin-echo and deconvolution techniques. pHi was determined from the pH-dependent separation of intracellular Pi and phosphocreatine resonances. Agents that release the prophase block (progesterone, insulin, D-600, La3+) increased pHi from 7.38 to 7.7-7.8 within 1-3 h. Noninducers such as 17 beta-estradiol were without effect. By second-metaphase arrest (ovulated, unfertilized) the pHi had fallen to 7.1-7.2. pHi underwent a transient increase to about 7.7 within the first 30 min at fertilization, with a slow 0.1-0.2 pH unit oscillation during early cleavage. The progesterone-induced elevation of intracellular pH is not blocked by amiloride and occurs in Na+-free medium. A transient rise in pHi occurs when the prophase-arrested oocyte is transferred to Ca2+-free medium or when ionophore A23187 is added to the Ca2+-containing medium. Agents that inhibit the resumption of the first meiotic division either block the rise in pHi (procaine, PMSF) or shorten the time-course of the rise in pHi (ionophore A23187). Conditions that elevate intracellular Ca2+ levels and/or increase Ca2+ exchange produce an increase in pHi, whereas those conditions that decrease intracellular Ca2+ levels and/or exchange produce a fall in pHi within 1 h. The time-course of the increase in pHi both following release of the prophase block and at fertilization coincide with a fall in intracellular cAMP and release of surface and/or intracellular Ca2+. These results suggest that: (1) pHi is a function of cytosolic free Ca2+ levels and/or Ca2+ exchange across the oocyte plasma membrane, and (2) meiotic agonists (progesterone, insulin, D-600) and mitogens (sperm, ionophore A23187) modulate intracellular and/or membrane Ca2+ with the resulting changes in pHi and cAMP and resumption of the meiotic divisions.     

Increased phosphorylation of a distinct subcellular pool of protein phosphatase, PP1gamma2, during epididymal sperm maturation

The enzyme PP1gamma2 is a testis- and sperm-specific isoform of type 1 protein phosphatase (PP1), and it is the only isoform of PP1 in spermatozoa. The enzyme PP1gamma2 is essential for spermatogenesis and is also a key enzyme in the development and regulation of sperm motility. The carboxy terminus of the enzyme contains a consensus amino acid sequence for phosphorylation by cyclin-dependent kinases. Using antibodies specific to this phosphorylated amino acid sequence domain, we found that phosphorylated PP1gamma2 is present in bovine epididymal spermatozoa. The level of phosphorylated PP1gamma2 is significantly higher in motile caudal compared to immotile caput epididymal spermatozoa. A number of treatments, such as 2-chloro adenosine, cAMP analogues, cAMP phosphodiesterase inhibitors, and calcium, which stimulate sperm motility, did not alter the level of phosphorylated PP1gamma2. However, calyculin A, which is an inhibitor of protein phosphatase subtypes PP1 and PP2A, significantly increases the level of phosphorylated PP1gamma2 in both caput and caudal epididymal spermatozoa. Partial purification by column chromatography showed that phosphorylated PP1gamma2 is catalytically active. Phosphorylated PP1gamma2 is the only spontaneously catalytically active form of the enzyme in caudal sperm extracts. Western blot analysis shows that the enzyme cyclin-dependent kinase 2, one of the enzymes that phosphorylates the consensus domain at the carboxy terminus in PP1 isoforms, is present in spermatozoa. Western blot analysis of proteins extracted from purified head and tail fragments of spermatozoa showed that phosphorylated PP1gamma2 is present predominantly in the sperm head. Fluorescence immunocytochemistry also showed that phosphorylated PP1gamma2 is present predominantly in the posterior region of the sperm head. The distinct subcellular localization and changes in its level during sperm maturation suggest a possible role for sperm phosphorylated PP1gamma2 in signaling events during fertilization.     

Development of the signalling pathways associated with sperm capacitation during epididymal maturation

As spermatozoa mature within the epididymis they acquire the potential for capacitation and ultimately fertilization. In biochemical terms, the former is reflected in the progressive activation of a signal transduction pathway characterized by cAMP-mediated induction of phosphotyrosine expression on the sperm tail. In this study, we have examined the cellular mechanisms controlling this maturational event. Caput epididymal spermatozoa exhibited tyrosine phosphorylation on the sperm head that was largely unresponsive to cAMP and not significantly impaired by removal of extracellular HCO(3) (-). In contrast, caudal epididymal spermatozoa exhibited low levels of phosphorylation on the sperm head, yet responded dramatically to cAMP by phosphorylating a new set of proteins on the sperm tail via mechanisms that were highly dependent on extracellular HCO(3) (-). The impact of extracellular HCO(3) (-) depletion on caudal cells was not associated with a significant change in the redox regulation of cAMP but could be fully reversed by buffering the intracellular pH with N-Tris[Hydroxymethyl]methyl-3-amino-propanesulfonic acid (TAPS). The pattern of tyrosine phosphorylation was also profoundly influenced by the presence or absence of added extracellular calcium. In the presence of this cation, only caudal spermatozoa could respond to increased extracellular cAMP with tyrosine phosphorylation of the sperm tail. However, in calcium-depleted medium, this difference completely disappeared. Under these conditions, caput and caudal spermatozoa were equally competent to exhibit phosphotyrosine expression on the sperm tail in response to cAMP. These results emphasize the pivotal role played by calcium and HCO(3) (-) in modulating the changes in tyrosine phosphorylation observed during epididymal maturation.