A Single Glucose Transporter Configuration in Normal Primate Brain Endothelium: Comparison with Resected Human Brain

Cellular distribution of the Glutl glucose transporter in normal primate brains was analyzed by immunogold electron microscopy. Two configurations of endothelial Glutl glucose transporter (high and low density capillaries) have been found in resections of traumatically injured and epileptogenic human brain; the objective of the present study was to ascertain whether these same 2 capillary populations, expressing high and low glucose transporter densities, were the common configuration in normal brain. The relative numbers of Glutl glucose transporter- associated gold particles on luminal and abluminal endothelial cell membranes were determined within the cerebral cortex of several normal, nonhuman primates. Low Glutl densities were seen in brain endothelia of both the rhesus and squirrel monkey cortex, with slightly greater quantities of Glutl in vervet monkey cortices. The Glutl transporter was most highly expressed in the baboon cortex, approaching the concentrations seen in human brains. In the rhesus, squirrel, and vervet monkeys, Glutl concentrations were greater on the abluminal than luminal capillary membranes. In contrast, mean luminal membrane Glutl concentrations were greater in baboons, resembling the distribution seen in the human brain. Brain regional differences in transporter concentration were seen in comparing membrane densities in the baboon cortex (~15 Glutl-gold particles per (µ meter), hippocampus (~12 Glutl gold particles per µ meter), cerebellum (~6 Glutl-gold particles per µ, meter), and retinal microvasculature (~20 Glutl-gold particles per µ, meter). We conclude that a single, uniform Glutl distribution characterizes brain capillaries of normal nonhuman primates, and hypothesize that the presence of high and low density glucose transporter endothelial cells (seen in human traumatic injury and seizure resections) represents a pathologic response to brain insult.