TASK-1 (K(2P)3) and TASK-3 (K(2P)9) in Rabbit Carotid Body Glomus Cells

Abstract

Glomus cells isolated from rabbit and rat/mouse carotid bodies have been used for many years to study the role of ion channels in hypoxia sensing. Studies show that hypoxia inhibits the inactivating K+ channels (Kv4) in rabbits, but inhibits TASK in rats/mice to elicit the hypoxic response. Because the role of TASK in rabbit glomus cells is not known, we isolated glomus cells from rabbits and studied the expression of TASK mRNA in the whole carotid body (CB), changes in [Ca2+]i and TASK activity. RT-PCR showed that rabbit CB expressed mRNA for TASK-3 and several Kv (Kv2.1, Kv3.1 and Kv3.3). In rabbit glomus cells in which 20 mM KCl circle elevated [Ca2+], anoxia also elicited a strong rise in [Ca2+]. In cell-attached patches with 140 mM KCl in the pipette, basal openings of ion channels with single-channel conductance levels of 16-pS, 34-pS, and 42-pS were present. TREK- like channels were also observed. In inside-out patches with high [Ca2+]i, BK was activated. The 42-pS channel opened spontaneously and briefly. The 16-pS and 34-pS channels showed properties similar to those of TASK-1 and TASK-3, respectively. TASK activity in cell-attached patches was lower than that in rat glomus cells under identical recording conditions. Hypoxia (similar to 0.5%O-2) reduced TASK activity by similar to 52% and depolarized the cells by similar to 30 mV. Our results show that the O-2-sensitive TASK contributes to the hypoxic response in rabbit glomus cells.