The Relationship between Insulin Binding and the Inhibition of Protein Degradation in Normal and Transformed Cells

F. J. Ballard; J. M. Gunn

doi:10.1055/s-2007-996184

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Horm Metab Res 1980; 12(1): 10-14
DOI: 10.1055/s-2007-996184

ORIGINALS

The Relationship between Insulin Binding and the Inhibition of Protein Degradation in Normal and Transformed Cells

F. J. Ballard, J. M. Gunn

CSIRO Division of Human Nutrition, Kintore Avenue, Adelaide, Australia, and Department of Biochemistry and Biophysics, Texas A & M University, College Station, Texas, U.S.A.

Further Information

Publication History

1978

1979

Publication Date:
14 March 2008 (online)

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Summary

The apparent K_j for insulin binding to Reuber H35 hepatoma, rat hepatocytes, 3T3 and SV403T3 cells in monolayer culture was approximately 2 × 10^-9M. Since insulin concentrations of 2 × 10^-12 M and 6 × 10^-11 M inhibit half-maximally intracellular protein degradation in the H35 hepatoma and SV403T3 cells respecitvely, it is apparent that very few insulin molecules are bound at such concentrations. The calculated number of insulin molecules bound per cell under these conditions is 45 in the H35 hepatoma and 180 in SV403T3. On the other hand, 36,000 and 2100 molecules are bound per cell respectively at insulin concentrations which inhibit half-maximally intracellular protein degradation in hepatocytes and 3T3 cells. Measurements of insulin degradation show rates about five times greater in the H35 hepatoma as compared to hepatocytes, thus eliminating a more rapid breakdown of insulin as an explanation of the lower insulin sensitivity in hepatocytes.

Key-words

Insulin Binding - Protein Degradation - Insulin Degradation - Cell Growth Control