Abstract
Sea urchin sperm motility can be activated by alkalinization of the internal pH, and previous studies have shown that the internal pH can be regulated by a voltage-sensitive Na+/H+ exchanger present in the flagellar plasma membrane. In this study, the effects of speract, a peptide purified from egg conditioned media, on the Na+/H+ exchange were investigated. Evidence presented indicates that speract activates K+ channels in the flagellar membrane and modulates the Na+/H+ exchange activity through resultant changes in membrane potential. In the presence of tetraphenylphosphonium, a lipophilic ion, or high external Na+, the isolated flagella were depolarized, and Na+/H+ exchanger was inhibited. Speract and valinomycin, a K+ ionophore, were able to reactivate 22Na+ uptake, H+ efflux, and alkalinization of intraflagellar pH under either of the depolarizing conditions. Membrane potential measurements using 3,3'-dipropylthiodicarbocyanide iodide indicated repolarization by either speract or valinomycin. The speract-induced voltage changes did not require Na+ but were sensitive to [K+]. Thus, speract induced a slight depolarization in Na+-free seawater with 10 mM K+ but a hyperpolarization with 2 mM K+. Further support for the activation of K+ channels in the flagella was the 2-5-fold stimulation of K+ efflux induced by speract as measured with a K+ electrode. The ionic selectivity of the speract-activated channel assessed by voltage measurements was K+ greater than Rb+ greater than Cs+. The half-maximally effective concentration of speract was about 0.2 nM. That the H+ and K+ efflux in response to peptide was receptor-mediated was confirmed by the use of speract or resact on intact sea urchin spermatozoa, where the peptides were found to stimulate K+ efflux and to reverse the tetraphenylphosphonium inhibition on H+ efflux only in the homologous spermatozoa. Modulation of the voltage-sensitive Na+/H+ exchange by egg peptides, therefore, appears to be indirect and is coupled through its action on membrane potential.
Highlights
From the $Department of Physiology, University of Minnesota, Minneapolis, Minnesota 55455 and the VDepartmnt of Phnrmacolopv, Howard Hughes Medical Institute Laboratory, Vanderbilt University School of Medicine, Nashville, S-nnessee 37232
Membrane potential measurements indicate that the reactivation is due to the repolarization effect of speract
A possible mechanism for the repolarization would be that speract increases the K+ permeability of the flagellar membrane
Summary
Flagella into artificial seawater containing 460 mM Na+ resulted in asmall amount of acid release, indicating inhibition by high [Na+] (trace 6). Dependence of the Na+/H+ Exchange on [Nu+]-Fig. 1 of the reversal by speract is somewhat less than thatproduced shows the dependence of the acid release from isolated flagella by valinomycin.
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