TY - JOUR
T1 - Hyperinsulinemia of obesity is due to decreased clearance of insulin
AU - Meistas, M. T.
AU - Margolis, S.
AU - Kowarski, A. A.
PY - 1983
Y1 - 1983
N2 - The hyperinsulinemia of obesity could result from a decrease in the metabolic clearance rate of insulin (MCR-I), an increase in the secretory rate of insulin (SR-I), or a combination of both these processes. Because C-peptide and insulin are secreted in an equimolar ratio, the plasma concentrations of C-peptide (C) and insulin (I) are inversely proportional to their rates of metabolic clearance (C/I = MCR-I/MRC-C). We obtained 24-h integrated concentrations (IC) of insulin (IC-I) and C-peptide (IC-C) in 23 obese and 45 nonobese subjects over a period of normal activity and food intake. The IC-I was 69% higher in the obese subjects (P < 0.0001). A 13% increase in the IC-C (P = 0.04, with a constant rate of C-peptide clearance indicates a proportionate increase in SR-I. A 33% decrease in the IC-C/IC-I in the obese group (P < 0.005) reflects a decrease in MCR-I; hence, 75% of the hyperinsulinemia is due to a decrease in the clearance of insulin. Because peripheral MCR-I (pMCR-I) is similar in obese and nonobese subjects, the decrease in MCR-I may be due to a decrease in the hepatic clearance of insulin. This conclusion was supported by our comparison of 24-hr IC-CIC-I ratios in the obese and nonobese subjects. Whereas the 24-h IC-C/IC-I of the nonobese resembled the fasting state, the 24-h IC-C/IC-I of the obese resembled the postprandial state, when insulin removal by the liver is known to be suppressed. These data are consistent with a decreased 24-h hepatic MCR-I (hMCR-I) as the cause of the hyperinsulinemia of obesity.
AB - The hyperinsulinemia of obesity could result from a decrease in the metabolic clearance rate of insulin (MCR-I), an increase in the secretory rate of insulin (SR-I), or a combination of both these processes. Because C-peptide and insulin are secreted in an equimolar ratio, the plasma concentrations of C-peptide (C) and insulin (I) are inversely proportional to their rates of metabolic clearance (C/I = MCR-I/MRC-C). We obtained 24-h integrated concentrations (IC) of insulin (IC-I) and C-peptide (IC-C) in 23 obese and 45 nonobese subjects over a period of normal activity and food intake. The IC-I was 69% higher in the obese subjects (P < 0.0001). A 13% increase in the IC-C (P = 0.04, with a constant rate of C-peptide clearance indicates a proportionate increase in SR-I. A 33% decrease in the IC-C/IC-I in the obese group (P < 0.005) reflects a decrease in MCR-I; hence, 75% of the hyperinsulinemia is due to a decrease in the clearance of insulin. Because peripheral MCR-I (pMCR-I) is similar in obese and nonobese subjects, the decrease in MCR-I may be due to a decrease in the hepatic clearance of insulin. This conclusion was supported by our comparison of 24-hr IC-CIC-I ratios in the obese and nonobese subjects. Whereas the 24-h IC-C/IC-I of the nonobese resembled the fasting state, the 24-h IC-C/IC-I of the obese resembled the postprandial state, when insulin removal by the liver is known to be suppressed. These data are consistent with a decreased 24-h hepatic MCR-I (hMCR-I) as the cause of the hyperinsulinemia of obesity.
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U2 - 10.1152/ajpendo.1983.245.2.e155
DO - 10.1152/ajpendo.1983.245.2.e155
M3 - Article
C2 - 6349380
AN - SCOPUS:0020806693
SN - 0193-1849
VL - 8
SP - E155-E159
JO - American Journal of Physiology - Endocrinology and Metabolism
JF - American Journal of Physiology - Endocrinology and Metabolism
IS - 2
ER -