AP-3依赖途径引导吞噬体与参与TLR2信号传导的Rab8和Rab11囊泡融合。

IF 3.6 3区生物学 Q3 CELL BIOLOGY

Traffic Pub Date : 2022-12-01 Epub Date: 2022-10-24 DOI:10.1111/tra.12870

Tanja Petnicki-Ocwieja, Bijaya Sharma, Urmila Powale, Devesh Pathak, Shumin Tan, Linden T Hu

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引用次数: 1

摘要

配体、受体和信号分子的细胞内分区已被认为是炎症的一个重要调节因素。收费样受体（TLR）2途径利用转运分子适配蛋白3（AP-3）从吞噬体区隔内激活白细胞介素（IL）-6信号。为了更好地了解可能有助于细胞内信号传导并与 AP-3 合作的囊泡通路，我们进行了囊泡 siRNA 筛选。我们发现 Rab8 和 Rab11 GTPases 在 TLR2 配体 Pam3 CSK4 或莱姆病病原体 Borrelia burgdorferi（Bb）的刺激下诱导 IL-6 的过程中起着重要作用。这些 Rabs 被招募到晚期和溶酶体阶段的吞噬体中，并以 AP-3 依赖性方式与 TLR2 信号适配器和效应器（如 MyD88、TRAM 和 TAK1）共同转运。我们的数据支持 AP-3 介导回收囊泡和分泌囊泡招募以及信号复合体在吞噬体组装的模型。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

An AP-3-dependent pathway directs phagosome fusion with Rab8 and Rab11 vesicles involved in TLR2 signaling.

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An AP-3-dependent pathway directs phagosome fusion with Rab8 and Rab11 vesicles involved in TLR2 signaling.

Intracellular compartmentalization of ligands, receptors and signaling molecules has been recognized as an important regulator of inflammation. The toll-like receptor (TLR) 2 pathway utilizes the trafficking molecule adaptor protein 3 (AP-3) to activate interleukin (IL)-6 signaling from within phagosomal compartments. To better understand the vesicular pathways that may contribute to intracellular signaling and cooperate with AP-3, we performed a vesicular siRNA screen. We identified Rab8 and Rab11 GTPases as important in IL-6 induction upon stimulation with the TLR2 ligand Pam₃ CSK₄ or the pathogen, Borrelia burgdorferi (Bb), the causative agent of Lyme disease. These Rabs were recruited to late and lysosomal stage phagosomes and co-transported with TLR2 signaling adaptors and effectors, such as MyD88, TRAM and TAK1, in an AP-3-dependent manner. Our data support a model where AP-3 mediates the recruitment of recycling and secretory vesicles and the assembly of signaling complexes at the phagosome.

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来源期刊

Traffic 生物-细胞生物学

CiteScore

8.10

自引率

2.20%

发文量

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.