Dynamic, variable oligomerization and the trafficking of variant surface glycoproteins of Trypanosoma brucei.

IF 3.6 3区 生物学 Q3 CELL BIOLOGY Traffic Pub Date : 2021-08-01 Epub Date: 2021-06-29 DOI:10.1111/tra.12806
Khan Umaer, Francisco Aresta-Branco, Monica Chandra, Monique van Straaten, Johan Zeelen, Karine Lapouge, Brandon Waxman, C Erec Stebbins, James D Bangs
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引用次数: 4

Abstract

African trypanosomes cause disease in humans and livestock, avoiding host immunity by changing the expression of variant surface glycoproteins (VSGs); the major glycosylphosphatidylinositol (GPI) anchored antigens coating the surface of the bloodstream stage. Proper trafficking of VSGs is therefore critical to pathogen survival. The valence model argues that GPI anchors regulate progression and fate in the secretory pathway and that, specifically, a valence of two (VSGs are dimers) is critical for stable cell surface association. However, recent reports that the MITat1.3 (M1.3) VSG N-terminal domain (NTD) behaves as a monomer in solution and in a crystal structure challenge this model. We now show that the behavior of intact M1.3 VSG in standard in vivo trafficking assays is consistent with an oligomer. Nevertheless, Blue Native Gel electrophoresis and size exclusion chromatography-multiangle light scattering chromatography of purified full length M1.3 VSG indicates a monomer in vitro. However, studies with additional VSGs show that multiple oligomeric states are possible, and that for some VSGs oligomerization is concentration dependent. These data argue that individual VSG monomers possess different propensities to self-oligomerize, but that when constrained at high density to the cell surface, oligomeric species predominate. These results resolve the apparent conflict between the valence hypothesis and the M1.3 NTD VSG crystal structure.

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布鲁氏锥虫动态、可变寡聚化和不同表面糖蛋白的转运。
非洲锥虫在人类和牲畜中引起疾病,通过改变变异表面糖蛋白(VSGs)的表达来避免宿主免疫;主要的糖基磷脂酰肌醇(GPI)锚定抗原覆盖在血流表面。因此,适当贩运VSGs对病原体的生存至关重要。价态模型认为,GPI锚定调节分泌途径的进展和命运,特别是两个价态(VSGs是二聚体)对于稳定的细胞表面结合至关重要。然而,最近有报道称,MITat1.3 (M1.3) VSG n端结构域(NTD)在溶液和晶体结构中表现为单体,这对该模型提出了挑战。我们现在表明,完整的M1.3 VSG在标准体内运输测定中的行为与低聚物一致。然而,纯化的全长M1.3 VSG的Blue Native凝胶电泳和尺寸排除色谱-多角度光散射色谱显示其为体外单体。然而,对其他VSGs的研究表明,多种寡聚状态是可能的,并且对于一些VSGs,寡聚是浓度依赖的。这些数据表明,单个VSG单体具有不同的自寡聚倾向,但当高密度限制在细胞表面时,寡聚物种占优势。这些结果解决了价态假设与M1.3 NTD VSG晶体结构之间的矛盾。
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来源期刊
Traffic
Traffic 生物-细胞生物学
CiteScore
8.10
自引率
2.20%
发文量
50
审稿时长
2 months
期刊介绍: Traffic encourages and facilitates the publication of papers in any field relating to intracellular transport in health and disease. Traffic papers span disciplines such as developmental biology, neuroscience, innate and adaptive immunity, epithelial cell biology, intracellular pathogens and host-pathogen interactions, among others using any eukaryotic model system. Areas of particular interest include protein, nucleic acid and lipid traffic, molecular motors, intracellular pathogens, intracellular proteolysis, nuclear import and export, cytokinesis and the cell cycle, the interface between signaling and trafficking or localization, protein translocation, the cell biology of adaptive an innate immunity, organelle biogenesis, metabolism, cell polarity and organization, and organelle movement. All aspects of the structural, molecular biology, biochemistry, genetics, morphology, intracellular signaling and relationship to hereditary or infectious diseases will be covered. Manuscripts must provide a clear conceptual or mechanistic advance. The editors will reject papers that require major changes, including addition of significant experimental data or other significant revision. Traffic will consider manuscripts of any length, but encourages authors to limit their papers to 16 typeset pages or less.
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