The passage of substances across the blood-brain barrier is regulated by cerebral capillaries which possess certain distinctly different morphological and enzymatic properties compared to capillaries of other organs. Investigations of the functional characteristics of brain capillaries have been facilitated by the use of cultured brain endothelial cells, but in most studies a number of characteristics of the in vivo system are lost. To provide an in vitro system for studies of brain capillary functions, we developed a method of isolating and producing a large number of bovine brain capillary endothelial cells. These cells, absolutely free of pericyte contamination, are subcultured, at the split ratio of 1:20 (20-fold increase of the cultured surface), with no apparent changes in cell morphology up to the fiftieth generation (10 passages). Retention of endothelial-specific characteristics (factor VIII-related antigen, angiotensin-converting enzyme, and nonthrombogenic surface) is shown for brain capillary-derived endothelial cells up to passage 10, even after frozen storage at passage 3. Furthermore, we showed that bovine brain capillary endothelial cells retain, up to the fiftieth generation, some of the characteristics of the blood-brain barrier: occurrence of tight junctions, paucity of pinocytotic vesicles, and monoamine oxidase activity.
The presence of lipoproteins, apolipoproteins, and their receptors in the brain could provide a system for cholesterol homeostasis, as they do in other tissues. This study was undertaken to determine whether plasma low-density lipoprotein, the major carrier of cholesterol, is involved in the delivery of lipids through the blood-brain barrier. 125I-Labeled low-density lipoprotein bound to a specific receptor on the endothelium of brain capillaries when it was injected immediately postmortem into bovine brain circulation. In contrast, no specific binding of 125I-low density lipoprotein was found when the incubations were performed with isolated capillaries. Incubations of endothelial or basement membranes of brain capillaries with 125I-low density lipoprotein demonstrated a high-affinity association of low-density lipoprotein with the membranes of bovine cerebral endothelial cells. The specificity of the low-density lipoprotein binding was determined in several ways using a dot blot assay. This receptor shows the same characteristics as the low-density lipoprotein receptor on human fibroblasts. The molecular weight of the bovine brain capillary low-density lipoprotein receptor (132,000) was determined by ligand blotting. These results demonstrated the occurrence of a low-density lipoprotein receptor on the endothelial cells of brain capillaries.
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