¹ From the Department of Physiology and Pharmacology, Duke University Medical Center, Durham, North Carolina 22710

This paper reports the effects of peptide PV (primary structure: cyclo-(D-val-L-pro-L-val-D-pro)) on the electrical properties of sheep red cell lipid bilayers. The membrane conductance (G_m) induced by PV in either Na⁺ or K⁺ medium is proportional to the concentration of PV in the aqueous phase. The PV concentration required to produce a comparable increase in G_m in K⁺ medium is about 10⁴ times greater than for its analogue, valinomycin (val). Although the selectivity sequence for PV and val is similar, K⁺ Rb⁺ > Cs⁺ > NH₄⁺ > TI⁺ > Na⁺ > Li⁺; the ratio of GGm in K⁺ to that in Na⁺ is about 10 for PV compared to > 10³ for val. When equal concentrations of PV are added to both sides of a bilayer, the membrane current approaches a maximum value independent of voltage when the membrane potential exceeds 100 mV. When PV is added to only one side of a bilayer separating identical salt solutions of either Na⁺ or K⁺ salts, rectification occurs such that the positive current flows more easily away rather than toward the side containing the carrier. Under these conditions, a large, stable, zero-current potential (VVm) is also observed, with the side containing PV being negative. The magnitude of this VVm is about 90 mV and relatively independent of PV concentration when the latter is larger than 2 Times; 10^–5 M. From a model which assumes that V_m equals the equilibrium potential for the PV-cation complexes (MS⁺) and that the reaction between PV and cations is at equilibrium on the two membrane surfaces, we compute the permeability of the membrane to free PV to be about 10^–5 cm s^–1, which is about 10^–7 times the permeability of similar membranes to free val. This interpretation is supported by the fact that the observed values of V_m are in agreement with the calculated equilibrium potential for MS⁺ over a wide range of ratios of concentrations of total PV in the two bathing solutions, if the unstirred layers are taken into account in computing the MS⁺ concentrations at the membrane surfaces.

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