The molecular structure of the TLR3 extracellular domain

Journal of endotoxin research Pub Date : 2006-12-01 DOI:10.1177/09680519060120060801

J. Bell, I. Botos, P. Hall, J. Askins, J. Shiloach, D. Davies, D. Segal

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引用次数: 28

Abstract

Toll-like receptors (TLRs), type I integral membrane receptors, recognize pathogen associated molecular patterns (PAMPs). PAMP recognition occurs via the N-terminal ectodomain (ECD) which initiates an inflammatory response that is mediated by the C-terminal cytosolic signaling domain. To understand the molecular basis of PAMP recognition, we have begun to define TLR—ECD structurally. We have solved the structure of TLR3-ECD, which recognizes dsRNA, a PAMP associated with viral pathogens. TLR3-ECD is a horseshoe-shaped solenoid composed of 23 leucine-rich repeats (LRRs). The regular LRR surface is disrupted by two insertions at LRR12 and LRR20 and 11 N-linked carbohydrates. Of note, one side of the ECD is carbohydrate-free and could form an interaction interface. We have shown that TLR3-ECD binds directly to pI:pC, a synthetic dsRNA ligand, but not to p(dI):p(dC). Without a TLR3—dsRNA complex structure, we can only speculate how ligand binds. Analysis of the unliganded structure reveals two patches of basic residues and two binding sites for phosphate backbone mimics, sulfate ions, that may be capable of recognizing ligand. Mutational and co-crystallization studies are currently underway to determine how TLR3 binds its ligand at the molecular level.

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TLR3胞外结构域的分子结构

toll样受体(TLRs)是一类整体膜受体，可识别病原体相关分子模式(PAMPs)。PAMP的识别通过n端胞外结构域(ECD)发生，该结构域启动由c端胞浆信号传导域介导的炎症反应。为了了解PAMP识别的分子基础，我们已经开始从结构上定义TLR-ECD。我们已经解决了TLR3-ECD的结构，它识别dsRNA，一种与病毒病原体相关的PAMP。TLR3-ECD是由23个富亮氨酸重复序列(lrr)组成的马蹄形螺线管。规则的LRR表面被LRR12和LRR20和11个n -连接碳水化合物的两个插入破坏。值得注意的是，ECD的一侧不含碳水化合物，可以形成交互界面。我们已经证明，TLR3-ECD直接结合pI:pC，一种合成的dsRNA配体，但不结合p(dI):p(dC)。没有TLR3-dsRNA复合物结构，我们只能推测配体是如何结合的。对非配体结构的分析揭示了两个碱基残基斑块和两个磷酸主链模拟物硫酸盐离子的结合位点，它们可能能够识别配体。目前正在进行突变和共结晶研究，以确定TLR3如何在分子水平上与其配体结合。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of endotoxin research

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