Glucokinase is the predominant hexokinase in pancreatic β-cells and liver parenchymal cells and functions as a critical component of the glucose-sensing apparatus in these glucose-responsive cell types. In the β-cells, the sensing leads to insulin secretion, while the role in hepatocytes is thought to be in hepatic glucose uptake. To determine the physiological response to an increase in hepatic glucokinase expression, transgenic mice expressing the human hepatic glucokinase gene under the control of a liver-specific human apolipoprotein A-I gene enhancer were generated. Transgenic mice had twofold higher total fasting hepatic glucokinase mRNA, which resulted in a modest 20% increase in fasting glucokinase activity. These animals showed lower fasting plasma glucose, insulin, and lactate levels and improved tolerance to glucose. In addition, glucokinase transgenic animals weighed less and had lower BMI than nontransgenic animals. Thus, glucokinase transgenic animals demonstrate that a modest change in hepatic glucokinase activity enhances the metabolism of glucose.
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Original Articles|
January 01 1997
Expression of Human Hepatic Glucokinase in Transgenic Mice Liver Results in Decreased Glucose Levels and Reduced Body Weight
Narayanan Hariharan;
Narayanan Hariharan
Department of Metabolic Diseases, Bristol-Myers Squibb PRI
Princeton, New Jersey
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Dennis Farrelly;
Dennis Farrelly
Department of Metabolic Diseases, Bristol-Myers Squibb PRI
Princeton, New Jersey
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Deborah Hagan;
Deborah Hagan
Department of Metabolic Diseases, Bristol-Myers Squibb PRI
Princeton, New Jersey
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Donna Hillyer;
Donna Hillyer
Department of Metabolic Diseases, Bristol-Myers Squibb PRI
Princeton, New Jersey
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Cynthia Arbeeny;
Cynthia Arbeeny
Department of Metabolic Diseases, Bristol-Myers Squibb PRI
Princeton, New Jersey
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Talal Sabrah;
Talal Sabrah
Department of Metabolic Diseases, Bristol-Myers Squibb PRI
Princeton, New Jersey
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Allison Treloar;
Allison Treloar
Veterinary Sciences, Bristol-Myers Squibb PRI
Wallingford, Connecticut
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Karen Brown;
Karen Brown
Department of Metabolic Diseases, Bristol-Myers Squibb PRI
Princeton, New Jersey
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Stephen Kalinowski;
Stephen Kalinowski
Department of Metabolic Diseases, Bristol-Myers Squibb PRI
Princeton, New Jersey
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Kasim Mookhtiar
Kasim Mookhtiar
Department of Metabolic Diseases, Bristol-Myers Squibb PRI
Princeton, New Jersey
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Address correspondence and reprint requests to Dr. Narayanan Hariharan, Department of Metabolic Diseases, K3111, Bristol-Myers Squibb PRI, RT. 206/Provinceline Rd., Princeton, NJ 08543. [email protected].
1
apoA-I, apolipoprotein A-I; hGK, human glucokinase; MODY, maturity-onset diabetes of the young; NEFA, nonesterified free fatty acids; rpL30, ribosomal protein L30; SSC, sodium chloride-sodium citrate.
Diabetes 1997;46(1):11–16
Article history
Received:
February 26 1996
Revision Received:
August 15 1996
Accepted:
August 15 1996
PubMed:
8971074
Citation
Narayanan Hariharan, Dennis Farrelly, Deborah Hagan, Donna Hillyer, Cynthia Arbeeny, Talal Sabrah, Allison Treloar, Karen Brown, Stephen Kalinowski, Kasim Mookhtiar; Expression of Human Hepatic Glucokinase in Transgenic Mice Liver Results in Decreased Glucose Levels and Reduced Body Weight. Diabetes 1 January 1997; 46 (1): 11–16. https://doi.org/10.2337/diab.46.1.11
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