TLR5-鞭毛蛋白识别与信号转导的结构基础。
Structural basis of TLR5-flagellin recognition and signaling.
机构信息
Department of Molecular Biology, The Scripps Research Institute, La Jolla, CA 92037, USA.
出版信息
Science. 2012 Feb 17;335(6070):859-64. doi: 10.1126/science.1215584.
Abstract
Toll-like receptor 5 (TLR5) binding to bacterial flagellin activates signaling through the transcription factor NF-κB and triggers an innate immune response to the invading pathogen. To elucidate the structural basis and mechanistic implications of TLR5-flagellin recognition, we determined the crystal structure of zebrafish TLR5 (as a variable lymphocyte receptor hybrid protein) in complex with the D1/D2/D3 fragment of Salmonella flagellin, FliC, at 2.47 angstrom resolution. TLR5 interacts primarily with the three helices of the FliC D1 domain using its lateral side. Two TLR5-FliC 1:1 heterodimers assemble into a 2:2 tail-to-tail signaling complex that is stabilized by quaternary contacts of the FliC D1 domain with the convex surface of the opposing TLR5. The proposed signaling mechanism is supported by structure-guided mutagenesis and deletion analyses on CBLB502, a therapeutic protein derived from FliC.
摘要
Toll 样受体 5(TLR5)与细菌鞭毛蛋白的结合通过转录因子 NF-κB 激活信号转导,并引发对入侵病原体的先天免疫反应。为了阐明 TLR5-鞭毛蛋白识别的结构基础和机制意义,我们以斑马鱼 TLR5(作为可变淋巴细胞受体杂合蛋白)与沙门氏菌鞭毛蛋白 FliC 的 D1/D2/D3 片段复合物的形式,在 2.47 埃分辨率下确定了其晶体结构。TLR5 主要通过其侧链与 FliC D1 结构域的三个螺旋相互作用。两个 TLR5-FliC 1:1 异二聚体组装成 2:2 尾对尾信号复合物,该复合物通过 FliC D1 结构域与对面 TLR5 的凸面的四级接触稳定。基于结构的诱变和 CBLB502 的缺失分析(一种源自 FliC 的治疗性蛋白)支持了所提出的信号转导机制。
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