Five amino acids of the Xenopus laevis CRF (corticotropin-releasing factor) type 2 receptor mediate differential binding of CRF ligands in comparison with its human counterpart.

The ligand selectivity of human (hCRF(2A)) and Xenopus laevis (xCRF(2)) forms of the corticotropin-releasing factor type 2 (CRF(2)) receptor differs. The purpose of this study was to identify amino acids in these two CRF(2) receptors conferring these differences. An amino acid triplet in the third extracellular domain (Asp(262)Leu(263)Val(264) in hCRF(2A) or Lys(264)Tyr(265)Ile(266) in xCRF(2)) was found to diverge between both receptors.

Design, synthesis and pharmacological characterization of new highly selective CRF(2) antagonists: development of 123I-K31440 as a potential SPECT ligand.

Novel analogs of antisauvagine-30 (aSvg-30), a specific antagonist for corticotropin-releasing factor (CRF) receptor, type 2 (CRF(2)), have been synthesized and characterized in vitro and in vivo. The N-terminal amino acid D-phenylalanine in aSvg-30 was replaced by a D-tyrosine residue for specific radioactive labeling with 123I. Additionally, Met(17) of aSvg-30 was substituted by norleucine and the N-terminus of the peptide was acetylated to increase in vivo metabolic stability.

Downregulation of endothelin receptors by autocrine production of endothelin-1.

The potent vasoconstrictor endothelin-1 (ET-1) is a paracrine, but also autocrine, factor for some types of cells. The goal of our study was to evaluate whether the receptor population in cells expressing endothelin receptor subtype A (rat mesangial cells) or endothelin receptor subtype B (human and rat endothelial cells) was affected by the autocrine production of ET-1. We therefore studied maximal binding capacity of 125I-labeled ET-1 in the presence or absence of the metalloprotease inhibitors phosphoramidon, which blocks the intracellular processing of Big ET-1 to ET-1, and thiorphan, which does not block this conversion.