NMR Determination of Intracerebral Glucose Concentration and Transport Kinetics in Rat Brain

Abstract

The concentration of intracerebral glucose as a function of plasma glucose concentration was measured in rats by ¹³C NMR spectroscopy. Measurements were made in 20–60 min periods during the infusion of [1-¹³C]d-glucose, when intracerebral and plasma glucose levels were at steady state. Intracerebral glucose was found to vary from 0.7 to 19 μmol g⁻¹ wet weight as the steady-state plasma glucose concentration was varied from 3 to 62 m M. A symmetric Michaelis–Menten model was fit to the brain and plasma glucose data with and without an unsaturable component, yielding the transport parameters K_m, V_max, and K_d. If it is assumed that all transport is saturable ( K_d = 0), then K_m = 13.9 ± 2.7 m M and V_max/ V_gly = 5.8 ± 0.8, where V_gly is the rate of brain glucose consumption. If an unsaturable component of transport is included, the transport parameters are K_m = 9.2 ± 4.7 m M, V_max/ V_gly = 5.3 ± 1.5, and K_d/ V_gly = 0.0088 ± 0.0075 ml μmol⁻¹. It was not possible to distinguish between the cases of K_d = 0 and K_d > 0, because the goodness of fit was similar for both. However, the results in both cases indicate that the unidirectional rate of glucose influx exceeds the glycolytic rate in the basal state by 2.4-fold and as a result should not be rate limiting for normal glucose utilization.