Citations to this article
Abstract
We have developed a model in the rat that leads to a predictable degree of severe uremia to study the role of the liver in the insulin-resistant state of uremia. The uremic animals were euglycemic and had increased serum immunoreactive insulin when compared with their pair-fed controls. Insulin action, binding, internalization, and degradation were characterized in freshly isolated hepatocytes from uremic animals, sham-operated pair-fed, and ad lib.-fed controls. The basal rate of aminoisobutyric acid (AIB) uptake was increased in hepatocytes from both uremic and pair-fed control rats. However, while hepatocytes from uremic animals were refractory to insulin with regard to AIB uptake, there was no significant difference in the absolute increment above basal AIB uptake by hepatocytes from pair-fed and fed ad lib. animals at any insulin concentration studied. 125I-Insulin binding at 24 degrees C was higher in hepatocytes from uremic rats at every insulin concentration studied when compared with fed ad lib. controls. The time course of 125I-insulin binding to the cell and to the fractions that were membrane bound or internalized were studied at 37 degrees C. An increase in membrane-bound 125I-insulin at 37 degrees C was present also in hepatocytes from uremic animals. The same fraction of membrane-bound 125I-insulin was internalized in hepatocytes from all groups of animals. Extracellular and receptor-mediated 125I-insulin degradation at the plasma membrane and after internalization was studied at 37 degrees C by gel chromatography. There was a delayed and decreased rate of 125I-insulin degradation in hepatocytes from uremic rats in the three compartments. We conclude: (a) In chronic uremia the liver is refractory to insulin with regard to AIB uptake. (b) Insulin resistance in uremic rat liver is not due to defects in insulin binding or internalization. (c) Despite the high level of circulating immunoreactive insulin, hepatocytes from uremic rats did not show the expected "down regulation" of their insulin receptors or an increased rate of insulin degradation. These studies further emphasize the primary role of postbinding events in the regulation of insulin binding and degradation. The mechanism as to how the coordinated steps of insulin metabolism in the liver are disrupted in a pathological state is presently unknown.
Authors
J M Kauffman, J F Caro
Total citations by year
Citations to this article (25)
| Title and authors | Publication | Year |
|---|---|---|
|
Seldin and Giebisch's The Kidney
CJ Cooper, LD Dworkin, WL Henrich |
Seldin and Giebisch's The Kidney | 2013 |
|
Up-regulation of NPY gene expression in hypothalamus of rats with experimental chronic renal failure
E Sucajtys-Szulc, J Karbowska, Z Kochan, W Wolyniec, M Chmielewski, B Rutkowski, J Swierczynski |
Biochimica et Biophysica Acta (BBA) - Molecular Basis of Disease | 2007 |
|
GROWTH FACTOR INSENSITIVITY IN RENAL FAILURE
R Rabkin |
Renal Failure | 2001 |
|
Muscle amino acid metabolism and the control of muscle protein turnover in patients with chronic renal failure
G Garibotto |
Nutrition | 1999 |
|
Critical Care Nephrology
C Ronco, R Bellomo |
1998 | |
|
Hyperfiltration of renal injury: Pathophysiology and clinical implications
RW Grady, AC Novick |
Urology | 1996 |
|
Inhibitory effect of methylguanidine on insulin binding to its receptor. Mechanism underlying insulin resistance in uremia
JY Lee, N Iwama, T Watarai, Y Yamasaki, R Kawamori, T Kamada |
Diabetes Research and Clinical Practice | 1991 |
|
Nephrology
M Hatano |
Nephrology | 1991 |
|
Insulin Resistance of Uremia
SR Hager |
American Journal of Kidney Diseases | 1989 |
|
Alterations of glucose transporter systems in insulin-resistant uremic rats
DB Jacobs, GR Hayes, JA Truglia, DH Lockwood |
American journal of physiology. Endocrinology and metabolism | 1989 |
|
Nutritional Treatment of Chronic Renal Failure
S Giovannetti |
1989 | |
|
International Handbook of Pancreas Transplantation
JM Dubernard, DE Sutherland |
1989 | |
|
Low protein and low phosphorus diet in patients with chronic renal failure: Influence on glucose tolerance and tissue insulin sensitivity
H Gin, M Aparicio, L Potaux, V Precigout, JL Bouchet, J Aubertin |
Metabolism | 1987 |
|
Effect of chronic uremia on fructose 2,6-bisphosphate glycolytic and gluconeogenic enzymes in rat liver
JF Caro, MK Sinha, GL Dohm |
Biochemical and Biophysical Research Communications | 1987 |
|
Insulin resistance in uremia: In vitro model in the rat liver using human serum to study mechanisms
F Folli, MK Sinha, D Brancaccio, JF Caro |
Metabolism | 1986 |
|
Pathogenesis and Treatment of Diabetes Mellitus
JK Radder, HH Lemkes, HM Krans |
1986 | |
|
Characterization and partial purification of a factor from uremic human serum that induces insulin resistance
ML McCaleb, MS Izzo, DH Lockwood |
Journal of Clinical Investigation | 1985 |
|
Cellular mechanisms in selected states of insulin resistance: Human obesity, glucocorticoid excess, and chronic renal failure
JM Amatruda, JN Livingston, DH Lockwood |
Diabetes / Metabolism Reviews | 1985 |
|
Brief Review Insulin Resistance in Chronic Renal Failure
ML Mccalebeb, JB Wish, DH Lockwood |
Endocrine Research | 1985 |
|
Hepatic messenger ribonucleic acid activity profiles in experimental azotemia in the rat. Relationship to food intake and thyroid function
WB Kinlaw, HL Schwartz, CN Mariash, C Bingham, FE Carr, JH Oppenheimer |
Journal of Clinical Investigation | 1984 |
|
The renal metabolism of insulin
R Rabkin, MP Ryan, WC Duckworth |
Diabetologia | 1984 |
|
The effects of chronic uremia on glucagon binding and action in isolated rat hepatocytes
TG Helinek, S Sadel, JF Caro |
Metabolism | 1984 |
|
Insulin regulation of insulin-like growth factor action in rat hepatoma cells
JH Heaton, NL Krett, JM Alvarez, TD Gelehrter, JA Romanus, MM Rechler |
The Journal of biological chemistry | 1984 |
|
Insulin resistance in uremia. Characterization of lipid metabolism in freshly isolated and primary cultures of hepatocytes from chronic uremic rats
JF Caro, S Lanza-Jacoby |
Journal of Clinical Investigation | 1983 |
|
Chemical mediator of insulin action stimulates lipid synthesis and down regulates the insulin receptors in primary cultures of rat hepatocytes
JF Caro, F Folli, F Cecchin, MK Sinha |
Biochemical and Biophysical Research Communications | 1983 |
Copyright © 2025 American Society for Clinical Investigation
ISSN: 0021-9738 (print), 1558-8238 (online)