Electrical properties of iridial arterioles of the rat.

When intracellular recordings were made from iridial arterioles, the cells had membrane potentials of about -65 mV and perivascular nerve stimulation evoked a membrane depolarization. When these cells were labeled with lucifer yellow, all cells that responded to perivascular nerve stimulation had the morphological characteristics of smooth muscle cells. Cells with the morphological characteristics of endothelial cells were never stained. When impaled with two separate recording electrodes, the smooth muscle layer was shown to form an electrical syncytium with a membrane time constant of approximately 80 ms and an electrical length constant of approximately 900 microns. At the ultrastructural level, areas of close apposition were frequently observed between adjacent smooth muscle cells and between adjacent endothelial cells. On the other hand, at contacts between smooth muscle and endothelial cells, the membranes characteristically had much larger separations. The observations show that individual smooth muscle cells are electrically coupled to their neighbors, but the morphological studies raise the possibility that in these arterioles the endothelial and muscle layers are electrically separate.