ELECTRICAL COUPLING BETWEEN CULTURED GLOMUS CELLS OF THE RAT CAROTID-BODY - OBSERVATIONS WITH CURRENT AND VOLTAGE CLAMPING

Electrically coupled pairs of cultured rat glomus cells were used. In one group of experiments, both cells were current-clamped. Delivery of positive or negative pulses to Cell 1 elicited appreciable voltage no ise in this cell and large action potentials (probably Ca2+ spikes) in about 10% of them. Both passive and active electrical events spread t o Cell 2, presumably through the gap junctions between them. The coupl ing coefficient (K-c) was larger for the spikes than for non-regenerat ive voltage noise. In another group of experiments, Cell 1 was current -clamped and Cell 2 was voltage-clamped at Cell 1 E(M). Pulses of eith er polarity, delivered to Cell 1, produced current flow through the in tercellular junction and allowed direct measurements of junctional cur rents (I-j) and total conductances (G(j)). I-j had a mean value of abo ut 12.5 pA and G(j) of 391 pS. Unitary (presumably single channel) con ductance (g(j)) was about 78 pS.