Simionescu M, Simionescu N, Palade G E
J Cell Biol. 1982 Aug;94(2):406-13. doi: 10.1083/jcb.94.2.406.
Lectins conjugated with either peroxidase or ferritin were used to detect specific monosaccharide residues on the luminal front of he fenestrated endothelium in the capillaries of murine pancreas and intestinal mucosa. The lectins tested recognize, if accessible, the following residues: alpha-N-acetylgalactosaminyl (soybean lectin), beta-D-galactosyl (peanut agglutinin [PA] and Ricinus communis agglutinin-120 [RCA]), beta-N-acetylglucosaminyl and sialyl residues (wheat germ agglutinin [WGA]), alpha-L-fucosyl (lotus tetragonolobus lectin), and alpha-D-glucosyl and beta-D-mannosyl (concanavalin A [ConA]). Thi labeled lectins were introduced by perfusion in situ after thoroughly flushing with phosphate-buffered saline the microvascular beds under investigation. Specimens were fixed by perfusion, and subsequently processed for peroxidase detection and electron microscopy. Control experiments included perfusion with: (a) unlabeled lectin before lectin conjugate; (b) labeled lectin together with the cognate hapten sugar, and (c) horseradish peroxidase or ferritin alone. Binding sites were found to be relatively homogeneously distributed on the plasmalemma proper, except for Lotus tetragonolobus lectin and Con A, which frequently bound in patches. Plasmalemmal vesicles, transendothelial channels, and their associated diaphragms were particularly rich in residues recognized by RCA and PA (beta-D-galactosyl residues) and by WGA (beta-N-acetylglucosaminyl residues). Receptors for all lectins tested appeared to be absent or considerably less concentrated on fenestral diaphragms. The results reported here extend and complement previous findings on the existence of microdomains generated by the preferential distribution of chemically different anionic sites (Simionescu et al., 1981, J. Cell Biol., 9:605-613 and 614-621).
与过氧化物酶或铁蛋白结合的凝集素被用于检测小鼠胰腺和肠黏膜毛细血管有孔内皮腔面的特定单糖残基。所测试的凝集素若能接触到相应残基,则可识别以下残基:α - N - 乙酰半乳糖胺基(大豆凝集素)、β - D - 半乳糖基(花生凝集素[PA]和蓖麻凝集素 - 120[RCA])、β - N - 乙酰葡糖胺基和唾液酸残基(麦胚凝集素[WGA])、α - L - 岩藻糖基(四棱豆凝集素)以及α - D - 葡糖基和β - D - 甘露糖基(伴刀豆球蛋白A[ConA])。在用磷酸盐缓冲盐水彻底冲洗待研究的微血管床后,通过原位灌注引入这些标记的凝集素。标本经灌注固定,随后进行过氧化物酶检测和电子显微镜检查。对照实验包括:(a)在凝集素偶联物之前灌注未标记的凝集素;(b)将标记的凝集素与同源半抗原糖一起灌注;以及(c)单独灌注辣根过氧化物酶或铁蛋白。发现结合位点在质膜本身相对均匀分布,但四棱豆凝集素和Con A除外,它们常以斑块形式结合。质膜小泡、跨内皮通道及其相关的隔膜特别富含RCA和PA识别的残基(β - D - 半乳糖基残基)以及WGA识别的残基(β - N - 乙酰葡糖胺基残基)。所测试的所有凝集素的受体似乎在窗孔隔膜上不存在或浓度显著较低。此处报道的结果扩展并补充了先前关于由化学性质不同的阴离子位点优先分布产生微区存在的研究发现(西米奥内斯库等人,1981年,《细胞生物学杂志》,9:605 -