Fraction of the Dark Current Carried by Ca2+ through Cgmp-Gated Ion Channels of Intact Rod and Cone Photoreceptors

doi:10.1085/jgp.116.6.735

Scientifica: Experts in Electrophysiology

Published 1 December 2000. doi:10.1085/jgp.116.6.735

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Original Article

Fraction of the Dark Current Carried by Ca²⁺ through Cgmp-Gated Ion Channels of Intact Rod and Cone Photoreceptors

Tsuyoshi Ohyama^a, David H. Hackos^a, Stephan Frings^b, Volker Hagen^c, U. Benjamin Kaupp^b, and Juan I. Korenbrot^a

^a Department of Physiology and Graduate Program in Biophysics, School of Medicine, University of California at San Francisco, San Francisco, California 94143
^b Institut für Biologische Informationsverarbeitung, Forschungszentrum Jülich, 52425 Jülich, Germany
^c Forschungs institut für Molekulare Pharmakologie, 10315 Berlin, Germany
Dept. of Physiology, School of Medicine, Box 0444, University of California at San Francisco, San Francisco, CA 94143.415-476-4929

juan{at}itsa.ucsf.edu

The selectivity for Ca²⁺ over Na⁺, PCa/PNa, is higher in cGMP-gated(CNG) ion channels of retinal cone photoreceptors than in thoseof rods. To ascertain the physiological significance of thisfact, we determined the fraction of the cyclic nucleotide–gatedcurrent specifically carried by Ca²⁺ in intact rods and cones.We activated CNG channels by suddenly (<5 ms) increasingfree 8Br-cGMP in the cytoplasm of rods or cones loaded witha caged ester of the cyclic nucleotide. Simultaneous with theuncaging flash, we measured the cyclic nucleotide–dependentchanges in membrane current and fluorescence of the Ca²⁺-bindingdye, Fura-2, also loaded into the cells. The ratio of changesin fura-2 fluorescence and the integral of the membrane current,under a restricted set of experimental conditions, is a directmeasure of the fractional Ca²⁺ flux. Under normal physiologicalsalt concentrations, the fractional Ca²⁺ flux is higher in CNGchannels of cones than in those of rods, but it differs littleamong cones (or rods) of different species. Under normal physiologicalconditions and for membrane currents $≤$ 200 pA, the Ca²⁺ fractionalflux in single cones of striped bass was 33 ± 2%, and34 ± 6% in catfish cones. Under comparable conditions,the Ca²⁺ fractional flux in rod outer segments of tiger salamanderwas 21 ± 1%, and 14 ± 1% in catfish rods. FractionalCa²⁺ flux increases as extracellular Ca²⁺ rises, with a dependencewell described by the Michaelis-Menten equation. KCa, the concentrationat which Ca²⁺ fractional flux is 50% was 1.98 mM in bass conesand 4.96 mM in tiger salamander rods. Because Ca²⁺ fractionalflux is higher in cones than in rods, light flashes that generateequal photocurrents will cause a larger change in cytoplasmicCa²⁺ in cones than in rods.

Key Words: retina • phototransduction • ion selectivity

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