Degradation, Receptor Binding Affinity and Biological Potency of Monoiodoinsulin in Isolated Rat Fat Cells

S. Gammeltoft; J. Vinten; J. Gliemann; Susanne Linde

doi:10.1055/s-0028-1093573

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Horm Metab Res 1977; 9(3): 186-189
DOI: 10.1055/s-0028-1093573

Originals

Degradation, Receptor Binding Affinity and Biological Potency of Monoiodoinsulin in Isolated Rat Fat Cells

S. Gammeltoft¹ , J. Vinten¹ , J. Gliemann¹ , Susanne Linde²

¹Institute of Medical Physiology C, University of Copenhagen, Copenhagen
²Research Laboratory, Steno Memorial Hospital, Gentofte, Denmark

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Publication History

Publication Date:
23 December 2008 (online)

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Abstract

The degradation, binding affinity and biological potency of monoiodoinsulin was studied in isolated rat fat cells. The rate of inactivation by a concentrated cell suspension was indistinguishable from that of native insulin, whereas the relative biological potency (increase in lipid synthesis from glucose) and binding affinity (inhibition of receptor binding of ¹²⁵I-labelled insulin) was 60-80%. Assuming that the insulin receptor binding is a simple, reversible, bimolecular reaction, the following are the consequences for the interpretation of experiments at equilibrium in which an unlabeled species of insulin competes with (¹²⁵I) monoiodoinsulin present in a concentration much below the dissociation constant for the insulin:
1. The dissociation constant is estimated without bias.
2. The total number of receptors is slightly underestimated.

Key words

Isolated Fat Cells - Insulin - Monoiodoinsulin - Insulin Binding - Insulin Degradation - Biological Potency

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