Boltz-Nitulescu G, Ortel B, Riedl M, Förster O
Immunology. 1984 Jan;51(1):177-84.
Previous experiments have shown that rat macrophages (M phi) bind specifically sheep erythrocytes (E) coated with various gangliosides (EG). To study the nature of this receptor-like structure, M phi were treated with proteinases, and their capacity to bind EG and/or E was analyzed in a rosette assay. Within 10 min of incubation with appropriate doses of enzymes, a clear enhancement of EG-binding activity was observed. In addition, enzyme-treated M phi bound uncoated E. Inhibition studies with gangliosides and carbohydrates, and enzyme treatment of E showed that this binding is mediated by the same M phi ganglioside receptor. The kinetics of the modulation of binding activity of M phi during trypsin treatment were similar for both E and EG. At optimal enzyme concentration a triphasic effect was noted. Enhancement of EG-binding and appearance of E-binding activity after 10-20 min was followed by a reduction of rosette-forming cells (RFC) with a minimum at about 1 hr and then by an increase of both E-RFC or EG-RFC up to 5 hr. Simultaneous incubation of M phi with trypsin and cycloheximide abrogated the second rise of binding activity and abolished binding on prolonged incubation. When these cells were washed and further incubated in fresh medium, they regained their initial E- and EG-binding capacity after 4-5 hr incubation. Taken together, these results are consistent with the idea that rat M phi bear a ganglioside receptor-like structure which seems to be a membrane protein and which is modulated by enzyme treatment.
先前的实验表明,大鼠巨噬细胞(M phi)可特异性结合包被有各种神经节苷脂的绵羊红细胞(E)(EG)。为研究这种受体样结构的性质,用蛋白酶处理M phi,并在花环试验中分析其结合EG和/或E的能力。在用适当剂量的酶孵育10分钟内,观察到EG结合活性明显增强。此外,经酶处理的M phi可结合未包被的E。用神经节苷脂和碳水化合物进行的抑制研究以及对E的酶处理表明,这种结合是由相同的M phi神经节苷脂受体介导的。在胰蛋白酶处理过程中,M phi结合活性调节的动力学对于E和EG来说是相似的。在最佳酶浓度下,观察到一种三相效应。10 - 20分钟后EG结合增强和E结合活性出现,随后花环形成细胞(RFC)减少,在约1小时时达到最低,然后E - RFC或EG - RFC两者均增加,直至5小时。将M phi与胰蛋白酶和放线菌酮同时孵育可消除结合活性的第二次升高,并在长时间孵育后消除结合。当这些细胞被洗涤并在新鲜培养基中进一步孵育时,在孵育4 - 5小时后它们恢复了最初的E和EG结合能力。综上所述,这些结果与大鼠M phi带有神经节苷脂受体样结构这一观点一致,该结构似乎是一种膜蛋白,并且可被酶处理调节。