Structural insights into the role of deleterious mutations at the dimeric interface of Toll-like receptor interferon-β related adaptor protein.

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
ACS Applied Electronic Materials Pub Date : 2024-10-01 Epub Date: 2024-05-30 DOI:10.1002/prot.26707
Shailya Verma, Revathy Menon, Ramanathan Sowdhamini
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引用次数: 0

Abstract

Toll-like receptors (TLRs) are major players in the innate immune system-recognizing pathogens and differentiating self/non-self components of immunity. These proteins are present either on the plasma membrane or endosome and recognize pathogens at their extracellular domains. They are characterized by a single transmembrane helix and an intracellular toll-interleukin-1 receptor (TIR) domain. Few TIRs directly invoke downstream signaling, while others require other TIR domains of adaptors like TIR domain-containing adaptor-inducing interferon-β (TRIF) and TRIF-related adaptor molecule (TRAM). On recognizing pathogenic lipopolysaccharides, TLR4 dimerises and interacts with the intracellular TRAM dimer through the TIR domain to recruit a downstream signaling adaptor (TRIF). We have performed an in-depth study of the structural effect of two mutations (P116H and C117H) at the dimeric interface of the adaptor TRAM, which are known to abrogate downstream signaling. We modeled the structure and performed molecular dynamics studies in order to decipher the structural basis of this effect. We observed that these mutations led to an increased radius of gyration of the complex and resulted in several changes to the interaction energy values when compared against the wild type (WT) and positive control mutants. We identified highly interacting residues as hubs in the WT dimer, and a few such hubs that were lost in the mutant dimers. Changes in the protein residue path, hampering the information flow between the crucial A86/E87/D88/D89 and T155/S156 sites, were observed for the mutants. Overall, we show that such residue changes can have subtle but long-distance effects, impacting the signaling path allosterically.

从结构上洞察 Toll 样受体干扰素-β 相关适配蛋白二聚体界面上有害突变的作用。
Toll 样受体(TLRs)是先天性免疫系统中的主要角色,可识别病原体并区分免疫系统中的自我/非自我成分。这些蛋白存在于质膜或内质体上,在其细胞外结构域识别病原体。它们的特点是有一个跨膜螺旋和一个胞内收费白细胞介素-1 受体(TIR)结构域。少数 TIR 可直接调用下游信号,而其他 TIR 则需要其他 TIR 结构域的适配体,如含 TIR 结构域的适配体诱导干扰素-β(TRIF)和 TRIF 相关适配体分子(TRAM)。在识别致病性脂多糖时,TLR4 会二聚化,并通过 TIR 结构域与细胞内的 TRAM 二聚体相互作用,从而招募下游信号适配体(TRIF)。我们对适配体 TRAM 二聚体界面上的两个突变(P116H 和 C117H)的结构效应进行了深入研究。我们建立了结构模型,并进行了分子动力学研究,以破译这种效应的结构基础。我们观察到,与野生型(WT)和阳性对照突变体相比,这些突变导致复合物的回旋半径增大,并导致相互作用能值发生了一些变化。我们在 WT 二聚体中发现了作为枢纽的高度相互作用残基,而在突变体二聚体中则发现了一些丢失的此类枢纽。在突变体中,我们观察到蛋白质残基路径发生了变化,阻碍了关键的 A86/E87/D88/D89 和 T155/S156 位点之间的信息流。总之,我们的研究表明,这种残基变化会产生微妙但长距离的影响,从而对信号路径产生异化作用。
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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来源期刊
CiteScore
7.20
自引率
4.30%
发文量
567
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