Abstract
Constitutively active forms of the hamster alpha(1b)-adrenoceptor can be produced from the point mutations Asp(142)Ala or Ala(293)Glu or exchange of a small segment of the third intracellular loop with the equivalent region of the beta(2)-adrenoceptor. Green fluorescent protein (GFP)-tagged forms of each of these mutants and of the wild type alpha(1b)-adrenoceptor were expressed stably in HEK293 cells. The wild type alpha(1b)-adrenoceptor-GFP was expressed both at the plasma membrane and with a distinctly perinuclear punctate pattern. Sustained treatment with a range of antagonist/inverse agonist ligands failed to modulate the cellular distribution or levels of expression of this construct. The form of the alpha(1b)-adrenoceptor containing the beta(2)-adrenoceptor sequence substitution was predominantly located in punctate intracellular vesicles and sustained challenge with the same series of antagonists/inverse agonists produced a 5-fold up-regulation of protein levels with elevation of both plasma membrane and intracellular receptor. Quantification of these effects could be produced by spectrofluorometric analysis of cells grown in a 96-well microtiter plate. In contrast, both the Asp(142)Ala and Ala(293)Glu forms of the alpha(1b)-adrenoceptor-GFP were located predominantly at the plasma membrane. Levels of these two point mutants were not increased by any of the antagonist/inverse agonist ligands tested, although the sequence substitution mutation encompasses codon 293. Resolution of constitutive activity and ligand-induced up-regulation was further exemplified by a mutant lacking eight serine residues in the C-terminal tail that displayed little constitutive activity but was up-regulated by sustained ligand challenge. These results demonstrate the nonequivalence of mutations in their regulation by antagonist/inverse agonist ligands.
Published Version
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