ETA and ETB endothelin receptors in human myometrium characterized by the subtype selective ligands BQ123, BQ3020, FR139317 and PD151242

Abstract

ET_A selective (BQ123, FR139317, PD151242) and ET_B selective (BQ3020) ligands were used to define the binding characteristics and contractile function of endothelin receptor subtypes in human myometrium. In saturation binding assays with 10 μm-thick tissue sections [¹²⁵I]endothelin-1 (ET-1) bound with a single affinity to receptors in the myometrium (K_d, 1·19±0·17 nm) and adjacent endometrium (K_d, 1·39±0·51 nm). Competition binding assays in myometrium revealed a heterogeneous population of receptors with BQ123 (K_d ET_A, 1·43±0·33 nm; K_d ET_B, 39·91±9·06 μm), FR139317 (K_d ET_A, 2·54±0·87 nm; K_d ET_B, 89·79±24·34 μm) and BQ3020 (K_d ET_A, 4·57±0·58 μm; K_d ET_B, 90·07±19·53 nm). The presence of these receptors in myometrium was confirmed by saturation assays with the new ET_A selective ligand [¹²⁵I]PD151242 (K_d, 0·93±0·08 nm B_max 138·7±1·0 fmol/mg protein) and the ET_B selective [¹²⁵I]BQ3020 (K_d, 0·62±0·07; B_max 44·5±1·1 fmol/mg protein). Reverse-transcriptase PCR assays detected mRNA encoding both receptor subtypes in myometrium. Autoradiography with radiolabelled PD151242 and BQ3020 demonstrated that ET_A receptors were the predominant subtype in the myometrium and identified a population of ET_B receptors in the endometrium. In tissue bath experiments, an ET-1-induced increase in contractility of myometrial strips was antagonized by 10 μm FR139317 but not by BQ123 at the same concentration. The ET_B agonist BQ3020, which is a potent agonist in animal tissue, did not increase contractility when tested at concentrations up to 2 μm. The results of this study suggest that ET_A endothelin receptors and a smaller population of ET_B receptors are found in human myometrium. ET_A, but not ET_B, receptors mediate myometrial contractility. The function of ET_B receptors in human uterus remains to be elucidated. Journal of Endocrinology (1995) 144, 127–134