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Diabetes 51:S343-S348, 2002
© 2002 by the American Diabetes Association, Inc.

Section 2: Beta-Cell Genes: Functional Aspects

Decreased Glibenclamide Uptake in Hepatocytes of Hepatocyte Nuclear Factor-1{alpha}-Deficient Mice

A Mechanism for Hypersensitivity to Sulfonylurea Therapy in Patients With Maturity-Onset Diabetes of the Young, Type 3 (MODY3)

Pascal Boileau1, Christian Wolfrum1, David Q. Shih1, Tien-An Yang1, Allan W. Wolkoff2, and Markus Stoffel1

1 Laboratory of Metabolic Diseases, the Rockefeller University, New York, New York
2 Marion Bessin Liver Research Center, Albert Einstein College of Medicine, Bronx, New York

Diabetes in subjects with hepatocyte nuclear factor (HNF)-1{alpha} gene mutations (maturity-onset diabetes of the young [MODY]-3) is characterized by impaired insulin secretion. Surprisingly, MODY3 patients exhibit hypersensitivity to the hypoglycemic actions of sulfonylurea therapy. To study the pharmacogenetic mechanism(s), we have investigated glibenclamide-induced insulin secretion, glibenclamide clearance from the blood, and glibenclamide metabolism in wild-type and Hnf-1{alpha}-deficient mice. We show that despite a profound defect in glucose-stimulated insulin secretion, diabetic Hnf-1{alpha}-/- mice have a robust glibenclamide-induced insulin secretory response. We demonstrate that the half-life (t1/2) of glibenclamide in the blood is increased in Hnf-1{alpha}-/- mice compared with wild-type littermates (3.9 ± 1.3 vs. 1.5 ± 1.8 min, P <= 0.05). The clearance of glibenclamide from the blood during the first hours after intravenous administration was reduced approximately fourfold in Hnf-1{alpha}-/- mice compared with Hnf-1{alpha}+/+ littermates. Glibenclamide uptake into hepatocytes was dramatically decreased in vivo and in vitro. To study the metabolism of glibenclamide in Hnf-1{alpha}-/- animals, we analyzed liver extracts from [3H]glibenclamide-injected animals by reverse-phase chromatography. We found that the ratio of the concentrations of glibenclamide and its metabolites was moderately increased in livers of Hnf-1{alpha}-/- mice, suggesting that hepatic glibenclamide metabolism was not impaired in animals with Hnf-1{alpha} deficiency. Our data demonstrate that high serum glibenclamide concentrations and an increased t1/2 of glibenclamide in the blood of Hnf-1{alpha}-/- mice are caused by a defect in hepatic uptake of glibenclamide. This suggests that hypersensitivity to sulfonylureas in MODY3 patients may be due to impaired hepatic clearance and elevated plasma concentrations of the drug.


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Copyright © 2002 by the American Diabetes Association.