Potassium channels regulate tone in rat pulmonary veins.

Intrapulmonary veins (PVs) contribute to pulmonary vascular resistance, but the mechanisms controlling PV tone are poorly understood. Although smooth muscle cell (SMC) K(+) channels regulate tone in most vascular beds, their role in PV tone is unknown. We show that voltage-gated (K(V)) and inward rectifier (K(ir)) K(+) channels control resting PV tone in the rat. PVs have a coaxial structure, with layers of cardiomyocytes (CMs) arrayed externally around a subendothelial layer of typical SMCs, thus forming spinchterlike structures. PVCMs have both an inward current, inhibited by low-dose Ba(2+), and an outward current, inhibited by 4-aminopyridine. In contrast, PVSMCs lack inward currents, and their outward current is inhibited by tetraethylammonium (5 mM) and 4-aminopyridine. Several K(V), K(ir), and large-conductance Ca(2+)-sensitive K(+) channels are present in PVs. Immunohistochemistry showed that K(ir) channels are present in PVCMs and PV endothelial cells but not in PVSMCs. We conclude that K(+) channels are present and functionally important in rat PVs. PVCMs form sphincters rich in K(ir) channels, which may modulate venous return both physiologically and in disease states including pulmonary edema.