EDHF is not K+ but may be due to spread of current from the endothelium in guinea pig arterioles

Abstract

Endothelium-derived hyperpolarizing factor (EDHF)-attributed hyperpolarizations and relaxations were recorded simultaneously from submucosal arterioles of guinea pigs with the use of intracellular microelectrodes and a video-based system, respectively. Membrane currents were recorded from electrically short segments of arterioles under single-electrode voltage clamp. Substance P evoked an outward current with a current-voltage relationship that was well described by the Goldman-Hodgkin-Katz equation for a K⁺ current, consistent with the involvement of intermediate- and small-conductance Ca²⁺-activated K⁺ channels. 1-Ethyl-2-benzimidazolinone relaxed the arterioles and evoked hyperpolarizations that were blocked by charybdotoxin, but not by iberiotoxin. Application of K⁺induced depolarization under conditions in which EDHF evoked hyperpolarization. The Ba²⁺-sensitive component of the K⁺-induced current was inwardly rectifying, in contrast to the outwardly rectifying current evoked by substance P. EDHF-attributed hyperpolarizations in dye-identified smooth muscle cells were indistinguishable from those recorded from dye-identified endothelial cells in the same arterioles. These results provide evidence that EDHF is not K⁺ but may involve electrotonic spread of hyperpolarization from the endothelial cells to the smooth muscle cells.