PMID: 9450653Feb 5, 1998Paper

A role for amino acid residues in the third cytoplasmic loop in defining the ligand binding characteristics of the alpha2D-adrenergic receptor

Molecular and Cellular Biochemistry
V VenkataramanR K Sharma

Abstract

In this report, 5 amino acid residues (aa) in the third cytoplasmic loop of the alpha 2D-adrenergic receptor are identified which (individually or together) alter its ligand-binding characteristics. An important structural discrepancy exists in the third cytoplasmic loop of the alpha 2D-ARs encoded by the rat cDNA and the rat gene--five aa are different. The newly identified bovine receptor as well as the mouse receptor contained the 5 aa identical to that encoded by the rat cDNA. Site-directed mutation of these residues to those of the rat gene encoded receptor resulted in alteration of binding characteristics: significant changes in the ability of the mutant receptor to bind to a number of agonists and antagonists were observed--ranging from a decrease by half in the case of oxymetazoline, to near total loss of binding in the case of prazosin. Thus, the mutant receptor was no longer pure alpha 2D-AR. This indicated a hitherto unrealized role of the third cytoplasmic loop in defining the ligand-binding characteristics of the receptor, and also suggested that the rat gene sequence was most probably in error.

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