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Endocrinology, Vol 128, 1597-1602, Copyright © 1991 by Endocrine Society
ARTICLES |
MM Ilondo, J Smal, P de Meyts and PJ Courtoy
Department of Pediatrics, University of Leuven, Belgium.
To better understand the complex kinetics of human GH (hGH) binding to its receptors, we have further investigated, in IM-9 cultured human lymphocytes, the cellular locus corresponding to the slowly dissociating component of hormone binding, and to the homologous down- regulation of hGH receptors. First, we have detailed the biphasic kinetics of dissociation of bound hormone in control cells at 30 C. When the association at 30 C was extended from 0.5 to 3 h, the time required for half-dissociation of the fast component was slightly decreased (from 30 to 15 min) but that of the slow component increased considerably (from 6 h to 30 h). Concomitantly, the size of the slowly dissociating component increased from 50 to 80% of total. This indicates a maturation of bound hormone, from a rapidly to a slowly dissociating pool and, in the latter, an increase in the apparent affinity that may reflect a molecular rearrangement. Next, we have compared the effect of two procedures reported to inhibit receptor- mediated endocytosis at the level of coated pits. As previously reported, depletion of intracellular K+ abolished the slowly dissociating component and the down-regulation of hGH receptors. In contrast, upon incubation with 0.4 M sucrose, which like K+ depletion virtually abrogated hGH internalization, the dissociation kinetics remained non-first order, and the down-regulation of hGH-receptor was only slightly reduced. Thus, these procedures appear to block receptor- mediated endocytosis at two successive compartments of the cell surface. In conclusion, we propose that some conformational change of hGH-receptor at the cell surface (possibly associated with clustering) may considerably slow down their dissociation and may be sufficient for down-regulation.
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