Muchmore A, Decker J, Shaw A, Wingfield P
Metabolism Branch, National Cancer Institute, NIH, Bethesda, Maryland 20205.
Cancer Res. 1990 Oct 1;50(19):6285-90.
Both recombinant tumor necrosis factor (rTNF) and recombinant interleukin 1 (rIL-1) are able to mediate vascular collapse and death in a previously described murine model, using galactosamine to enhance the toxicity of these cytokines. Unexpectedly, both acid-treated tumor necrosis factor (TNF) and a site-specifically mutagenized form of interleukin 1 (IL-1) (His-30----Arg-30), which fails to bind to the IL-1 receptor, retain full in vivo toxicity in this model of TNF- and IL-1-mediated shock. Previous studies have shown that rTNF and rIL-1 exhibit two functionally distinct binding regions. Both cytokines bind to their respective cell surface receptors and they also express lectin like binding specificity (Muchmore and Decker, J. Biol. Chem., 261: 13404-13407, 1986; Muchmore and Decker, J. Immunol., 138: 2541-2546, 1987) for defined oligosaccharides. The specificity of these two types of interactions is quite different. Cell surface receptors for IL-1 and TNF demonstrate essentially no cross-reactivity, whereas, in the case of carbohydrate binding, competition studies reveal an almost identical carbohydrate specificity for the structure Man5(6)GlcNAc2-Asn. Man5(6)GlcNAc2-Asn binding is either unaffected or actually enhanced by either acid treatment of rTNF or mutation at His-30 for rIL-1. Both deoxymannojirimycin and swainsonine, inhibitors of glycoprotein processing, raise intracellular levels of Man5-9GlcNAc2 and enhance the in vitro biological activity of both rTNF and rIL-1. Conversely, castanosperimine, a glucosidase I inhibitor which blocks the synthesis of mature high mannose structures, inhibits the biological activity of IL-1. These observations support the hypothesis that some effects of IL-1 and TNF may involve interaction with high mannose-substituted glycoproteins.
在先前描述的小鼠模型中,使用半乳糖胺增强这些细胞因子的毒性,重组肿瘤坏死因子(rTNF)和重组白细胞介素1(rIL-1)都能够介导血管塌陷和死亡。出乎意料的是,酸处理的肿瘤坏死因子(TNF)和白细胞介素1(IL-1)的位点特异性诱变形式(His-30→Arg-30),其无法与IL-1受体结合,在这个TNF和IL-1介导的休克模型中仍保留完全的体内毒性。先前的研究表明,rTNF和rIL-1表现出两个功能不同的结合区域。这两种细胞因子都与其各自的细胞表面受体结合,并且它们还对特定的寡糖表现出凝集素样结合特异性(Muchmore和Decker,《生物化学杂志》,261: 13404 - 13407,1986;Muchmore和Decker,《免疫学杂志》,138: 2541 - 2546,1987)。这两种相互作用类型的特异性有很大不同。IL-1和TNF的细胞表面受体基本上没有交叉反应性,然而,在碳水化合物结合的情况下,竞争研究揭示了对结构Man5(6)GlcNAc2-Asn几乎相同的碳水化合物特异性。rTNF的酸处理或rIL-1在His-30处的突变对Man5(6)GlcNAc2-Asn结合没有影响,实际上反而增强了这种结合。脱氧甘露基野尻霉素和苦马豆素这两种糖蛋白加工抑制剂,可提高细胞内Man5-9GlcNAc2的水平,并增强rTNF和rIL-1的体外生物活性。相反,一种葡糖苷酶I抑制剂栗精胺,它能阻断成熟高甘露糖结构的合成,抑制IL-1的生物活性。这些观察结果支持这样的假设,即IL-1和TNF的某些作用可能涉及与高甘露糖取代的糖蛋白相互作用。
