Sodium influx induced by external calcium chelation decreases human sperm motility.

BACKGROUND: Calcium removal from the medium promptly reduces human sperm motility and induces a Na(+)-dependent depolarization that is accompanied by an increase in intracellular sodium concentration ([Na(+)](i)) and a decrease in intracellular calcium concentration ([Ca(2+)](i)). Sodium loading activates a Na(+)/K(+)-ATPase. METHODS: Membrane potential (Vm) and [Ca(2+)](i) were simultaneously detected in human sperm populations with the fluorescent probes diSC(3)(5) and fura 2. [Na(+)](i) and was measured independently in a similar fashion using sodium-binding benzofuran isophthalate. Motility was determined in a CASA system, ATP was measured using the luciferin-luciferase assay, and cAMP was measured by radioimmunoassay. RESULTS: Human sperm motility reduction after calcium removal is related to either Na(+)-loading or Na(+)-dependent depolarization, because, under conditions that inhibit the calcium removal-induced Na(+)-dependent depolarization and [Na(+)](i) increase, sperm motility was unaffected. By clamping sperm Vm with valinomycin, we found that the motility reduction associated with the calcium removal was related to sodium loading, and not to membrane potential depolarization. Mibefradil, a calcium channel blocker, markedly inhibited the Na(+)-dependent depolarization and sodium loading, and also preserved sperm motility. In the absence of calcium, both ATP and cAMP concentrations were decreased by 40%. However ATP levels were unchanged when calcium removal was performed under conditions that inhibit the calcium removal-induced Na(+)-dependent depolarization and [Na(+)](i) increase. CONCLUSIONS: Human sperm motility arrest induced by external calcium removal is mediated principally by sodium loading, which would stimulate the Na(+)/K(+)-ATPase and in turn deplete the ATP content.

Activation of protein kinase A stimulates the progesterone-induced calcium influx in human sperm exposed to the phosphodiesterase inhibitor papaverine.

Progesterone induces a fast transient calcium influx in human sperm though the activation of nongenomic receptors. During sperm capacitation, a complex process required for sperm to be able to fertilize the egg, the calcium influx induced by progesterone is enhanced. Sperm capacitation is mediated by an increase in cAMP content and subsequent protein kinase A (PKA) activation. In this work, we examined the effect of increasing intracellular cAMP on the calcium influx induced by progesterone in noncapacitated human sperm. To do this, sperm were exposed to the phosphodiesterase inhibitor papaverine for 5 minutes, a treatment that increased both the cAMP content and the PKA activity several-fold. The calcium influx induced by progesterone was increased by papaverine to levels close to those found in capacitated sperm. This effect was partially inhibited by H89 (48%) and by genistein (41%), and the sum of both inhibitors reduced the stimulating effect of papaverine by 89%. The inhibitory effect of genistein on the progesterone-induced calcium influx could be related to its capability to inhibit the papaverine-stimulated increase in cAMP content and PKA activity. The results presented here suggest that the calcium influx induced by progesterone is up-regulated by the PKA activity.