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Molecular Endocrinology, Vol 10, 90-99, Copyright © 1996 by Endocrine Society
ARTICLES |
MA Shupnik, J Weck and PM Hinkle
Department of Internal Medicine, University of Virginia, Charlottesville 29203, USA.
TRH stimulates rat (r) TSH beta gene promoter activity at two distinct response elements, which also respond to protein kinase C-signaling pathways. The dependence of TRH-stimulated transcription of the TSH beta gene on a rise in intracellular calcium [Ca2+]i, and on the necessity for Ca2+ influx through L-type voltage-gated calcium channels was investigated in two transfected cell lines and in normal thyrotropes. The transcription rate of the homologous gene in normal thyrotropes was measured by nuclear run-off assays. Bay K8644, an L channel agonist, stimulated TSH beta gene transcription 6-fold, and TRH stimulation of TSH beta gene transcription was partially blocked by nimodipine, an L channel antagonist, while phorbol 12-myristate-13- acetate (PMA)-stimulated transcription was not. Bay K8644 plus TRH had a greater effect than either treatment alone. Constructs of the 5'- flanking region of the TSH beta gene fused to the luciferase reporter (TSH beta LUC) were then transfected into excitable GH3 pituitary cells. TSH beta LUC was stimulated 2- to 5-fold by 1 nM TRH or 100 nM Bay K8644, and the TRH effect was nearly abolished by nimodipine or chelation of external Ca2+. Constructs containing isolated TRH- responsive elements fused to a heterologous promoter responded similarly. The protein kinase C activator, PMA (100 nM) also stimulated TSH beta LUC transcription, but its effect was not inhibited by nimodipine. A stable heterologous cell line containing the mouse TRH receptor was constructed by transfection of nonexcitable 293 cells, which lack L channel activity. In the resultant 301 cells, TSH beta LUC activity was increased 2- to 3-fold by TRH or PMA; nimodipine, Bay K8644, and removal of extracellular Ca2+ had no effect. We conclude that TRH stimulation of TSH beta gene transcription requires Ca2+ release from inositol triphosphate-sensitive stores and Ca2+ influx via L-type calcium channels in GH3 cells, but in transfected 293 cells TRH activation of protein kinase C plays a predominant role in activating TSH beta. Both mechanisms appear to be operative in normal thyrotropes.
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