Bekeredjian-Ding Isabelle, Inamura Seiichi, Giese Thomas, Moll Hermann, Endres Stefan, Sing Andreas, Zähringer Ulrich, Hartmann Gunther
Department of Microbiology, University of Heidelberg, Im Neuenheimer Feld 324, Heidelberg, Germany.
J Immunol. 2007 Mar 1;178(5):2803-12. doi: 10.4049/jimmunol.178.5.2803.
B cells possess functional characteristics of innate immune cells, as they can present Ag to T cells and can be stimulated with microbial molecules such as TLR ligands. Because crude preparations of Staphylococcus aureus are frequently used as polyclonal B cell activators and contain potent TLR2 activity, the scope of this study was to analyze the impact of S. aureus-derived TLR2-active substances on human B cell activation. Peripheral B cells stimulated with chemically modified S. aureus cell wall preparations proliferated in response to stimulation with crude cell wall preparations but failed to be activated with pure peptidoglycan, indicating that cell wall molecules other than peptidoglycan are responsible for B cell proliferation. Subsequent analysis revealed that surface protein A (SpA), similar to BCR cross-linking with anti-human Ig, sensitizes B cells for the recognition of cell wall-associated TLR2-active lipopeptides (LP). In marked contrast to TLR7- and TLR9-triggered B cell stimulation, stimulation with TLR2-active LP and SpA or with crude cell wall preparations failed to induce IgM secretion, thereby revealing qualitative differences in TLR2 signaling compared with TLR7/9 signaling. Notably, combined stimulation with SpA plus TLR2 ligands induced vigorous proliferation of a defined B cell subset that expressed intracellular IgM in the presence of IL-2.
S. aureus triggers B cell activation via SpA-induced sensitization of B cells for TLR2-active LP. Combined SpA and TLR2-mediated B cell activation promotes B cell proliferation but fails to induce polyclonal IgM secretion as seen after TLR7 and TLR9 ligation.
B细胞具有天然免疫细胞的功能特性,因为它们可以将抗原呈递给T细胞,并能被微生物分子如Toll样受体(TLR)配体刺激。由于金黄色葡萄球菌的粗制品经常被用作多克隆B细胞激活剂,并且含有强大的TLR2活性,本研究的范围是分析金黄色葡萄球菌衍生的TLR2活性物质对人B细胞激活的影响。用化学修饰的金黄色葡萄球菌细胞壁制剂刺激的外周B细胞在受到粗细胞壁制剂刺激时会增殖,但不能被纯肽聚糖激活,这表明除肽聚糖外的细胞壁分子是B细胞增殖的原因。随后的分析表明,表面蛋白A(SpA)与用抗人Ig进行的BCR交联类似,可使B细胞对细胞壁相关的TLR2活性脂肽(LP)的识别敏感。与TLR7和TLR9触发的B细胞刺激形成鲜明对比的是,用TLR2活性LP和SpA或粗细胞壁制剂刺激未能诱导IgM分泌,从而揭示了与TLR7/9信号传导相比TLR2信号传导的质的差异。值得注意的是,SpA与TLR2配体的联合刺激诱导了一个特定B细胞亚群的强烈增殖,该亚群在IL-2存在的情况下表达细胞内IgM。
金黄色葡萄球菌通过SpA诱导B细胞对TLR2活性LP敏感来触发B细胞激活。SpA和TLR2介导的联合B细胞激活促进B细胞增殖,但不能诱导如TLR7和TLR9连接后所见的多克隆IgM分泌。
