Magez S, Stijlemans B, Radwanska M, Pays E, Ferguson M A, De Baetselier P
Laboratory of Cellular Immunology, Flanders Interuniversity Institute for Biotechnology, Free University of Brussels, Belgium.
J Immunol. 1998 Feb 15;160(4):1949-56.
The TNF-alpha-inducing capacity of different trypanosome components was analyzed in vitro, using as indicator cells a macrophage cell line (2C11/12) or peritoneal exudate cells from LPS-resistant C3H/HeJ mice and LPS-sensitive C3H/HeN mice. The variant-specific surface glycoprotein (VSG) was identified as the major TNF-alpha-inducing component present in trypanosome-soluble extracts. Both soluble (sVSG) and membrane-bound VSG (mfVSG) were shown to manifest similar TNF-alpha-inducing capacities, indicating that the dimyristoylglycerol (DMG) compound of the mfVSG anchor was not required for TNF-alpha triggering. Detailed analysis indicated that the glycosyl-inositol-phosphate (GIP) moiety was responsible for the TNF-alpha-inducing activity of VSG and that the presence of the GIP-associated galactose side chain was essential for optimal TNF-alpha production. Furthermore, the results showed that the responsiveness of macrophages toward the TNF-alpha-inducing activity of VSG was strictly dependent on the activation state of the macrophages, since resident macrophages required IFN-gamma preactivation to become responsive. Comparative analysis of the ability of both forms of VSG to activate macrophages revealed that mfVSG but not sVSG stimulates macrophages toward IL-1alpha secretion and acquisition of LPS responsiveness. The priming activity of mfVSG toward LPS responsiveness was also demonstrated in vivo and may be relevant during trypanosome infections, since Trypanosoma brucei-infected mice became gradually LPS-hypersensitive during the course of infection. Collectively, the VSG of trypanosomes encompasses two distinct macrophage-activating components: while the GIP moiety of sVSG mediates TNF-alpha induction, the DMG compound of the mfVSG anchor contributes to IL-1 alpha induction and LPS sensitization.
利用巨噬细胞系(2C11/12)或来自抗脂多糖(LPS)的C3H/HeJ小鼠和对LPS敏感的C3H/HeN小鼠的腹腔渗出细胞作为指示细胞,在体外分析了不同锥虫成分诱导肿瘤坏死因子-α(TNF-α)的能力。变异特异性表面糖蛋白(VSG)被鉴定为锥虫可溶性提取物中主要的TNF-α诱导成分。可溶性VSG(sVSG)和膜结合VSG(mfVSG)均显示出相似的TNF-α诱导能力,这表明mfVSG锚定物的二肉豆蔻酰甘油(DMG)化合物对于TNF-α触发并非必需。详细分析表明,糖基-肌醇-磷酸(GIP)部分负责VSG的TNF-α诱导活性,并且GIP相关半乳糖侧链的存在对于最佳TNF-α产生至关重要。此外,结果表明巨噬细胞对VSG的TNF-α诱导活性的反应性严格依赖于巨噬细胞的激活状态,因为驻留巨噬细胞需要γ干扰素预激活才能产生反应。对两种形式的VSG激活巨噬细胞能力的比较分析表明,mfVSG而非sVSG刺激巨噬细胞分泌白细胞介素-1α(IL-1α)并获得LPS反应性。mfVSG对LPS反应性的启动活性也在体内得到证实,并且可能在锥虫感染期间具有相关性,因为布氏锥虫感染的小鼠在感染过程中逐渐对LPS过敏。总的来说,锥虫的VSG包含两种不同的巨噬细胞激活成分:sVSG的GIP部分介导TNF-α诱导,而mfVSG锚定物的DMG化合物有助于IL-1α诱导和LPS致敏。
