Dennehy Kevin M, Willment Janet A, Williams David L, Brown Gordon D
Institute of Infectious Disease and Molecular Medicine, Clinical Laboratory Sciences Division of Immunology, University of Cape Town, Cape Town, South Africa.
Eur J Immunol. 2009 May;39(5):1379-86. doi: 10.1002/eji.200838543.
Recognition of microbial products by germ-line-encoded PRR initiates immune responses, but how PRR mediate specific host responses to infectious agents is poorly understood. We and others have proposed that specificity is achieved by collaborative responses mediated between different PRR. One such example comprises the fungal beta-glucan receptor Dectin-1, which collaborates with TLR to induce TNF production. We show here that collaborative responses mediated by Dectin-1 and TLR2 are more extensive than first appreciated, and result in enhanced IL-23, IL-6 and IL-10 production in DC, while down-regulating IL-12 relative to the levels produced by TLR ligation alone. Such down-regulation occurred with multiple MyD88-coupled TLR, was dependent on signaling through Dectin-1 and also occurred in macrophages. These findings explain how fungi can induce IL-23 and IL-6, while suppressing IL-12, a combination which has previously been shown to contribute to the development of Th17 responses found during fungal infections. Furthermore, these data reveal how the collaboration of different PRR can tailor specific responses to infectious agents.
由种系编码的模式识别受体(PRR)识别微生物产物可启动免疫反应,但PRR如何介导宿主对感染因子的特异性反应却知之甚少。我们和其他人提出,特异性是通过不同PRR之间介导的协同反应实现的。一个这样的例子包括真菌β-葡聚糖受体Dectin-1,它与Toll样受体(TLR)协同诱导肿瘤坏死因子(TNF)的产生。我们在此表明,由Dectin-1和TLR2介导的协同反应比最初认识到的更为广泛,并导致树突状细胞(DC)中白细胞介素-23(IL-23)、白细胞介素-6(IL-6)和白细胞介素-10(IL-10)的产生增强,而相对于单独由TLR连接产生的水平,白细胞介素-12(IL-12)则下调。这种下调在多个与髓样分化因子88(MyD88)偶联的TLR中发生,依赖于通过Dectin-1的信号传导,并且在巨噬细胞中也会发生。这些发现解释了真菌如何诱导IL-23和IL-6,同时抑制IL-12,这种组合先前已被证明有助于在真菌感染期间发现的辅助性T细胞17(Th17)反应的发展。此外,这些数据揭示了不同PRR的协同作用如何针对感染因子定制特异性反应。
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