Abstract
Endothelin receptors are widely distributed throughout a number of tissues. A novel ETB receptor splice variant (ETB-SVR) was identified from a human placental cDNA library. Sequence analysis indicated that the ETB-SVR is 436 amino acids long and shares 91% identity to the human ETB-R. Northern blot analysis indicated an mRNA species of 2.7 kilobases, which is expressed in the lung, placenta, kidney, and skeletal muscle. Ligand binding studies of the cloned ETB-SVR and ETB-R receptors expressed in COS cells showed that ET peptides exhibited similar potency in displacing 125I-ET-1 binding. Functional studies showed that ET-1, ET-3, and sarafotoxin 6c displayed similar potencies for inositol phosphates accumulation in ETB-R-transfected COS cells, whereas no increase in inositol phosphate accumulation was observed in ETB-SVR-transfected cells. In addition, exposure of ETB-R-transfected cells to ET-1 caused an increase in the intracellular acidification rate whereas ETB-SVR-transfected cells did not respond to ET-1. These data suggest that the ETB-SVR and ETB-R are functionally distinct and the difference in the amino acid sequences between the two receptors may determine functional coupling. Availability of cDNA clones for endothelin receptors can facilitate our understanding of the role of ET in the pathophysiology of various diseases.
Highlights
Endothelins are a family of peptide hormones having profound cardiovascular, mitogenic, and potential neuroregulatory functions
The ET1 peptide family is composed of three members, ET-1, ET-2, and ET-3, that are encoded by three separate genes, which are differentially expressed in the tissues of the periphery and central nervous system
We have previously reported the cloning, functional characterization, and regulation of the human ETA and ETB receptor subtypes [25]
Summary
Ligand binding studies of the cloned ETB-SVR and ETB-R receptors expressed in COS cells showed that ET peptides exhibited similar potency in displacing 125I-ET-1 binding. ET mediates a number of physiological effects including vasoconstriction mitogenesis, and induction of c-fos transcription [12,13,14,15,16,17,18,19,20,21,22,23] These diverse and complex physiological effects mediated by ET in conjunction with the molecular heterogeneity and differential tissue distribution of the ET-related peptides and their receptors underscores the importance of utilizing molecular biological approaches to dissect the components of ET physiology. We describe the cloning and functional characterization of a novel ETB receptor splice variant from human placenta
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