Ionic permeabilities of the plasma membrane of isolated intact bovine rod outer segments as studied with a novel optical probe

The stoichiometry of Na-Ca+K exchange in rod outer segments isolated from bovine retinas

Ca2+ extrusion in the outer segments of retinal rods (ROS) is mediated by a protein that couples both the inward Na+ gradient and the outward K+ gradient to Ca2+ extrusion. Na(+)-stimulated Ca2+ release from ROS requires internal K+ and is accompanied by release of internal K+, whereas a slow component of Na(+)-stimulated Ca2+ release does not require K+. In this paper we discuss our observations on the K+ transport via Na-Ca+ K exchange in bovine ROS, on the electrogenicity and stoichiometry of the ROS Na-Ca+ K exchanger, and on the mechanism on coupling Ca2+ to K+ via this protein. Finally, we discuss briefly the physiological implications of Na-Ca+ K exchange.

Silver ions induce a rapid Ca2+ release from isolated intact bovine rod outer segments by a cooperative mechanism

Micromolar concentrations of silver ion activate large Ca2+ fluxes across the plasma membrane of intact rod outer segments isolated from bovine retinas (intact ROS). The rate of Ag+-induced Ca2+ efflux from intact ROS depended on the Ag+ concentration in a sigmoidal manner suggesting a cooperative mechanism with a Hill coefficient between 2 and 3. At a concentration of 50 microM Ag+ the rate of Ca2+ efflux was 7 x 10(6) Ca2+/outer segment/sec; this represents a change in total intracellular Ca2+ by 0.7 mM/outer segment/sec. Addition of the nonselective ionophore gramicidin in the absence of external alkali cations greatly reduced the Ag+-induced Ca2+ efflux from intact ROS, apparently by enabling internal alkali cations to leak out. Adding back alkali cations to the external medium restored Ag+-induced Ca2+ efflux when gramicidin was present. In the presence of gramicidin, Ag+-induced Ca2+ efflux from intact ROS was blocked by 50 microM tetracaine or L-cis diltiazem, whereas without gramicidin both blockers were ineffective. Both L-cis diltiazem and tetracaine are blockers of one kinetic component of cGMP-induced Ca2+ flux across ROS disk membranes. The ion selectivity of the Ag+-induced pathway proved to be broad with little discrimination between the alkali cations Li+, Na+, K+, and Cs+ or between Ca2+ and Mg2+. The properties of the Ag+-induced pathway(s) suggest that it may reflect the cGMP-dependent conductance opened in the absence of cGMP by silver ions.