Gerhart D Z, Broderius M A, Drewes L R
Department of Biochemistry, School of Medicine, University of Minnesota, Duluth 55812.
Brain Res Bull. 1988 Nov;21(5):785-93. doi: 10.1016/0361-9230(88)90047-0.
Cultures of endothelial cells (EC) derived from human (autopsy) and canine brain microvessels were characterized with respect to growth, morphology, and biochemical features. The endothelial nature of these cells was confirmed by analyses of angiotensin-converting enzyme activity, Factor VIII-related antigen, and ultrastructure. Human EC required coated substrates and tumor-conditioned medium to achieve rapid growth, and cells derived from human microvessels were morphologically diverse. In contrast, canine EC grew rapidly on plastic substrates and produced colonies of uniform morphology. Morphological variations of EC were associated with the use of heparin-containing medium and with the use of a commercially-prepared basement membrane extract (Matrigel). Lectin histochemistry demonstrated that human EC lack the abundant alpha-galactose residues characteristic of canine EC membranes and organelles and that canine EC lack the alpha-N-acetylgalactosamine residues which are associated with human EC. The lectin Ricinus communis agglutinin I may be useful for distinguishing canine EC from pericytes. Gel electrophoresis of membrane proteins revealed protein bands present in human EC at Mr 210,000 and 37,000-39,500 which were not present in canine EC. These proteins may be related to the presence of junctional complexes in cultures of human EC.
对源自人类(尸检)和犬类脑微血管的内皮细胞(EC)培养物的生长、形态和生化特征进行了表征。通过分析血管紧张素转换酶活性、VIII因子相关抗原和超微结构,证实了这些细胞的内皮性质。人类EC需要包被的底物和肿瘤条件培养基才能实现快速生长,并且源自人类微血管的细胞在形态上具有多样性。相比之下,犬类EC在塑料底物上生长迅速,并产生形态均匀的集落。EC的形态变化与使用含肝素的培养基以及使用商业制备的基底膜提取物(基质胶)有关。凝集素组织化学表明,人类EC缺乏犬类EC膜和细胞器特有的丰富α-半乳糖残基,而犬类EC缺乏与人类EC相关的α-N-乙酰半乳糖胺残基。凝集素蓖麻凝集素I可能有助于区分犬类EC和周细胞。膜蛋白的凝胶电泳显示,人类EC中存在分子量为210,000以及37,000 - 39,500的蛋白条带,而犬类EC中不存在这些条带。这些蛋白可能与人类EC培养物中连接复合体的存在有关。
