Kinetics of Regional Blood–Brain Barrier Transport and Brain Phosphorylation of Glucose and 2-Deoxyglucose in the Barbiturate–Anesthetized Rat |
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Authors: | William M Pardridge Paul D Crane Lawrence J Mietus William H Oldendorf |
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Institution: | Departments of Medicine and Neurology, UCLA School of Medicine, Los Angeles, California;and Research Service, Brentwood Hospital, Veterans Administration, Los Angeles, California, U.S.A. |
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Abstract: | Abstract: Recent studies indicate the lumped constant (LC), which defines the relative rates of brain utilization of glucose and 2-deoxyglucose (2-DG), doubles to values > 1.0 under conditions of hypoglycemia. Since changes in the LC should be predictable given the kinetic parameters of blood-brain barrier (BBB) transport and brain phosphorylation of glucose and 2-DG, the present studies were designed to measure the necessary kinetic parameters. The carotid injection technique was used to determine cerebral blood flow and the Km , Vmax, and K D of glucose and 2-DG transport through the BBB in seven brain regions in rats anesthetized with 50 mg/kg i.p. pentobarbital. Regional glucose transport through the BBB was characterized by an average Km = 6.3 m m , average Vmax = 0.53 μmol min?1g?1, and average K D= 0.022 ml min?1g?1. The nonsaturable route of transport of glucose represented on the average 40% of the total glucose influx into brain regions at an arterial glucose concentration of 10 m m . In addition, the rate constants of phosphorylation of glucose and 2-DG were measured for each region. Substitutions of the measured kinetic parameters for sugar transport and phosphorylation into equations defining the LC confirm the observation that the LC would be expected to vary under extreme conditions such as hypoglycemia and to exceed values of 1.0 under these conditions. |
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Keywords: | Blood brain barrier Glucose transport 2-Deoxyglucose technique Lumped constant |
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