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Endocrinology, Vol 135, 986-995, Copyright © 1994 by Endocrine Society
ARTICLES |
E Raspe and JE Dumont
Institut de Recherche Interdisciplinaire en Biologie Humaine et Nucleaire, Free University of Brussels School of Medicine (U.L.B.), Belgium.
Protein iodination by the dog thyrocyte (a marker of thyroid hormone synthesis) is stimulated by the Ca(2+)-phosphatidylinositol and cAMP cascades. We have shown previously that H2O2 generation, a limiting step of thyroid hormone synthesis, is modulated by these two cascades. In this work, we show that the I- release from preloaded thyrocytes is also activated by agents activating the Ca(2+)-phosphatidylinositol cascade and by Ca2+ ionophores, especially in synergy with 12-O- tetradecanoylphorbol 13-acetate, a potent activator of protein kinase- C. The effect of carbachol is reduced when the extracellular Ca2+ is depleted. Thus, both arms of the Ca(2+)-phosphatidylinositol cascade, Ca2+ and diacylglycerol, acutely and synergistically activate dog thyrocyte I- release. This I- release was also accelerated by acute and chronic exposure to TSH, forskolin, or (BU)2cAMP. The chronic stimulation of I- release by TSH exposure was diminished by chronic epidermal growth factor treatment (which dedifferentiates the thyrocytes). In addition, the chronic stimulation of I- release by forskolin was not affected by withdrawal of the agent up to 4 h before the experiment, in contrast to the acute effect of forskolin, which vanished within 16 min after forskolin withdrawal. These results suggest that the chronic stimulation of I- release by TSH or forskolin involves a stable mechanism. The I- transport system causing the release of I- from the dog thyrocyte is almost insensitive to inhibition by NaClO4 and KSCN. Hence, the iodide release cannot be due to the action of the basolateral Na+/I- cotransporter. In addition, we show that I- release was less sensitive than I- uptake to the inhibition by dysidenin, a marine toxin isolated from the sponge, Dysidea herbacea, known to inhibit I- uptake by dog thyroid slices. In summary, this work suggests that in a well defined model of the thyroid, the dog thyrocyte in primary culture, an I- transport system distinct from the basolateral Na+/I- cotransporter, is responsible for the observed I- release. The complex modulation of this transport system, involving at least the Ca(2+)-phosphatidylinositol and cAMP cascades, parallels the regulation of protein iodination, which itself reflects thyroid hormone synthesis.
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