Endothelin receptors and calcium translocation pathways in human airways

Abstract: Tension and phosphatidyl inositol (PI) turnover experiments were conducted to investigate the receptors and signal transduction pathways responsible for contractions elicited by endothelin (ET) ligands in human bronchus. Nicardipine (1 �M), the L-type calcium channel inhibitor, or incubation in Ca²⁺-free medium, produced marked inhibition of contractions to the ET_B receptor-selective agonist, sarafotoxin S6c, and especially those induced by KCl. In contrast, Ca²⁺-free medium was without appreciable effect against contraction produced by endothelin-1 (ET-1), the non-selective ET_A and ET_B receptor agonist. In Ca²⁺-free medium, ryanodine (10 �M), which inhibits intracellular calcium mobilization, reduced sarafotoxin S6c- and ET-1-induced responses, but was without effect on responses to KCl. Similarly, nickel chloride (Ni²⁺; 1 mM) caused marked inhibition of contractions induced by sarafotoxin S6c or ET-1, but had no significant effect on KCl concentration-response curves. The mixed ET_A/ET_B receptor antagonist SB 209670 (3 �M) inhibited responses to sarafotoxin S6c and ET-1 such that concentration-response curves were shifted rightward, at the 30% maximum response level, by 10.0- and 3.8-fold, respectively, whereas BQ-123 (3 �M), the ET_A receptor antagonist, was without effect on responses induced by either agonist. ET-1 (1 nM–0.3 �M) caused a concentration-dependent stimulation of PI turnover, whereas sarafotoxin S6c (0.3 nM–0.1 �M) induced only small and variable increases, except at the highest concentration. The increase in PI turnover evoked by ET-1 was inhibited by SB 209670 (3 �M), and also by BQ-123 (3 �M). This is consistent with linkage of ET_A receptors to activation of inositol phosphate generation in human bronchial smooth muscle cells. Collectively, the data suggest that differences exist in the relative contributions of intracellular and extracellular Ca²⁺ mobilization mechanisms elicited by ET_A and ET_B receptor activation. Thus, sarafotoxin S6c-induced, ET_B receptor-mediated contraction in human bronchial smooth muscle appears to be dependent, in part, upon extracellular Ca²⁺, although a significant component of the response was also mediated by intracellular Ca²⁺ release, including from ryanodine-sensitive stores. ET_A receptor-mediated contraction of human airway smooth muscle was activated largely via the release of intracellular Ca²⁺.