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梅毒密螺旋体外膜蛋白组的结构建模:梅毒发病机制解析与梅毒疫苗开发的路线图。

Structural Modeling of the Treponema pallidum Outer Membrane Protein Repertoire: a Road Map for Deconvolution of Syphilis Pathogenesis and Development of a Syphilis Vaccine.

机构信息

Department of Pediatrics, UConn Health, Farmington, Connecticut, USA.

Division of Infectious Diseases and Immunology, Connecticut Children's, Hartford, Connecticut, USA.

出版信息

J Bacteriol. 2021 Jul 8;203(15):e0008221. doi: 10.1128/JB.00082-21.

DOI:10.1128/JB.00082-21
PMID:33972353
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8407342/
Abstract

Treponema pallidum, an obligate human pathogen, has an outer membrane (OM) whose physical properties, ultrastructure, and composition differ markedly from those of phylogenetically distant Gram-negative bacteria. We developed structural models for the outer membrane protein (OMP) repertoire (OMPeome) of T. pallidum Nichols using solved Gram-negative structures, computational tools, and small-angle X-ray scattering (SAXS) of selected recombinant periplasmic domains. The T. pallidum "OMPeome" harbors two "stand-alone" proteins (BamA and LptD) involved in OM biogenesis and four paralogous families involved in the influx/efflux of small molecules: 8-stranded β-barrels, long-chain-fatty-acid transporters (FadLs), OM factors (OMFs) for efflux pumps, and T. pallidum repeat proteins (Tprs). BamA (TP0326), the central component of a β-barrel assembly machine (BAM)/translocation and assembly module (TAM) hybrid, possesses a highly flexible polypeptide-transport-associated (POTRA) 1-5 arm predicted to interact with TamB (TP0325). TP0515, an LptD ortholog, contains a novel, unstructured C-terminal domain that models inside the β-barrel. T. pallidum has four 8-stranded β-barrels, each containing positively charged extracellular loops that could contribute to pathogenesis. Three of five FadL-like orthologs have a novel α-helical, presumptively periplasmic C-terminal extension. SAXS and structural modeling further supported the bipartite membrane topology and tridomain architecture of full-length members of the Tpr family. T. pallidum's two efflux pumps presumably extrude noxious small molecules via four coexpressed OMFs with variably charged tunnels. For BamA, LptD, and OMFs, we modeled the molecular machines that deliver their substrates into the OM or external milieu. The spirochete's extended families of OM transporters collectively confer a broad capacity for nutrient uptake. The models also furnish a structural road map for vaccine development. The unusual outer membrane (OM) of T. pallidum, the syphilis spirochete, is the ultrastructural basis for its well-recognized capacity for invasiveness, immune evasion, and persistence. In recent years, we have made considerable progress in identifying T. pallidum's repertoire of OMPs. Here, we developed three-dimensional (3D) models for the T. pallidum Nichols OMPeome using structural modeling, bioinformatics, and solution scattering. The OM contains three families of OMP transporters, an OMP family involved in the extrusion of noxious molecules, and two "stand-alone" proteins involved in OM biogenesis. This work represents a major advance toward elucidating host-pathogen interactions during syphilis; understanding how T. pallidum, an extreme auxotroph, obtains a wide array of biomolecules from its obligate human host; and developing a vaccine with global efficacy.

摘要

梅毒螺旋体是一种专性的人体病原体,其外膜(OM)的物理性质、超微结构和组成与亲缘关系较远的革兰氏阴性细菌明显不同。我们使用已解决的革兰氏阴性结构、计算工具和选定的重组周质域的小角度 X 射线散射(SAXS),为梅毒螺旋体 Nichols 的外膜蛋白(OMP) repertoire(OMPeome)开发了结构模型。梅毒螺旋体的“OMPeome”包含两个参与外膜生物发生的“独立”蛋白(BamA 和 LptD)和四个参与小分子内外流的同源家族:8 链β-桶、长链脂肪酸转运蛋白(FadLs)、外排泵的 OM 因子(OMFs)和梅毒螺旋体重复蛋白(Tprs)。BamA(TP0326)是β-桶组装机(BAM)/转运和组装模块(TAM)杂交体的中心组件,具有一个高度灵活的多肽转运相关(POTRA)1-5 臂,预测与 TamB(TP0325)相互作用。TP0515 是 LptD 的同源物,包含一个新颖的无结构 C 端结构域,该结构域位于β-桶内。梅毒螺旋体有四个 8 链β-桶,每个桶都包含带正电荷的细胞外环,这些环可能有助于发病。五个 FadL 样同源物中有三个具有新颖的α-螺旋、推定的周质 C 端延伸。SAXS 和结构建模进一步支持了 Tpr 家族全长成员的二部分膜拓扑结构和三结构域结构。梅毒螺旋体的两个外排泵可能通过四个共表达的 OMF 以带有可变电荷的隧道将有害物质排出细胞外。对于 BamA、LptD 和 OMFs,我们对将其底物递送入 OM 或外部环境的分子机器进行了建模。螺旋体的 OM 转运蛋白的扩展家族共同赋予了广泛的营养摄取能力。这些模型还为疫苗开发提供了结构路线图。梅毒螺旋体的异常外膜(OM)是其众所周知的侵袭性、免疫逃避和持久性的超微结构基础。近年来,我们在鉴定梅毒螺旋体的 OMP repertoire 方面取得了相当大的进展。在这里,我们使用结构建模、生物信息学和溶液散射,为梅毒螺旋体 Nichols 的 OMPeome 开发了三维(3D)模型。OM 包含三种 OMP 转运蛋白家族、一种参与排出有害物质的 OMP 家族以及两种参与外膜生物发生的“独立”蛋白。这项工作代表了在梅毒研究中阐明宿主-病原体相互作用、理解梅毒螺旋体作为一种极端营养缺陷型如何从其专性人类宿主中获得广泛的生物分子以及开发具有全球疗效的疫苗方面的重大进展。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d316/8407342/83fe6a59d55b/jb.00082-21-f0007.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d316/8407342/83fe6a59d55b/jb.00082-21-f0007.jpg

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