Mutations to forskolin resistance result in loss of adrenocorticotropin receptors and consequent reductions in levels of G protein alpha-subunits

Molecular Endocrinology
R QiuB P Schimmer

Abstract

A family of mutants isolated from the Y1 mouse adrenal cell line on the basis of their resistance to the growth inhibitory effects of forskolin have an underlying mutation that affects the activity of adenylyl cyclase. As part of the mutant phenotype, adenylyl cyclase is partially resistant to activation by forskolin, completely insensitive to ACTH, and fully responsive to NaF; the levels of Gs alpha and G1 alpha in plasma membrane fractions are decreased; and the activity of G beta/gamma is impaired. In the present study, we examine the basis for the complex phenotype associated with forskolin resistance to better understand the factors that contribute to the regulation of adenylyl cyclase activity. We demonstrate that the resistance of these mutants to ACTH results from the failure to express ACTH receptor transcripts. Transfection of these mutants with a gene encoding the mouse beta 2-adrenergic receptor led to the recovery of transformants with normal receptor-G protein coupling and with increased levels of Gs alpha and G1 alpha that approached those in parental Y1 cells. These beta 2-adrenergic receptor transformants, nonetheless, remained resistant to forskolin and ACTH. Two spontaneous Y1 mutants, Y6 and OS3, previously ...Continue Reading

Citations

Nov 16, 2004·Molecular and Cellular Endocrinology·William E RaineyBernard P Schimmer

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