Picones A, Korenbrot J I
Department of Physiology, School of Medicine, University of California, San Francisco 94143.
J Gen Physiol. 1992 Oct;100(4):647-73. doi: 10.1085/jgp.100.4.647.
We measured the ion selectivity of cGMP-dependent currents in detached membrane patches from the outer segment of cone photoreceptors isolated from the retina of striped bass. In inside-out patches excised from either single or twin cones the amplitude of these currents, under symmetric ionic solutions, changed with the concentration of cGMP with a dependence described by a Hill equation with average values, at +80 mV, of Km = 42.6 microM and n = 2.49. In the absence of divalent cations, and under symmetric ionic solutions, the I-V curves of the currents were linear over the range of -80 to +80 mV. The addition of Ca altered the form of the I-V curve to a new function well described by an empirical equation that also describes the I-V curve of the photocurrent measured in intact photoreceptors. The monovalent cation permeability sequence of the cGMP-gated channels in the absence of divalent ions was PK > PNa = PLi = PRb > PCs (1.11 > 1.0 = 0.99 = 0.96 > 0.82). The conductance selectivity sequence at +80 mV was GNa = GK > GRb > GCs > GLi (1.0 = 0.99 > 0.88 > 0.74 > 0.60). The organic cations tetramethylammonium (TMA) and arginine partially blocked the current, but the larger ion, arginine, was permeant, whereas the smaller ion, TMA, was not. The amplitude of the outward current through the channels increased with the concentration of monovalent cations on the cytoplasmic membrane surface, up to a saturating value. The increase was well described by the adsorption isotherm of a single ion binding site within the channel with average binding constants, at +80 mV, of 104 mM for Na and 37.6 mM for Li. By assuming that the ion channel contains a single ion binding site in an energy trough separated from each membrane surface by an energy barrier, and using Eyring rate theory, we simulated I-V curves that fit the experimental data measured under ionic concentration gradients. From this fit we conclude that the binding site interacts with one ion at a time and that the energy barriers are asymmetrically located within the membrane thickness. Comparison of the quantitative features of ion permeation and interaction between the cGMP-gated channels of rod and cone photoreceptors reveals that the ion binding sites are profoundly different in the two types of channels. This molecular difference may be particularly important in explaining the differences in the transduction signal of each receptor type.
我们测量了从条纹鲈视网膜分离的视锥光感受器外段的膜片上,环鸟苷酸(cGMP)依赖性电流的离子选择性。在从单个或双视锥细胞切下的内面向外的膜片中,在对称离子溶液下,这些电流的幅度随cGMP浓度变化,其依赖性可用希尔方程描述,在+80 mV时,平均值为Km = 42.6 microM,n = 2.49。在没有二价阳离子且处于对称离子溶液的情况下,电流的I-V曲线在-80至+80 mV范围内呈线性。加入钙离子后,I-V曲线的形式变为一种新的函数,可用一个经验方程很好地描述,该方程也描述了完整光感受器中测量的光电流的I-V曲线。在没有二价离子的情况下,cGMP门控通道的单价阳离子通透性顺序为PK > PNa = PLi = PRb > PCs(1.11 > 1.0 = 0.99 = .....