Neutrophil-Mediated Bacterial Dissemination and Host Immunopathogenesis in a Murine Scrub Typhus Model

鼠恙虫病模型中中性粒细胞介导的细菌传播和宿主免疫发病机制

• 批准号: 10039314
• 负责人: Yuejin Liang
• 金额: $ 23.7万
• 依托单位: UNIVERSITY OF TEXAS MED BR GALVESTON
• 依托单位国家: 美国
• 财政年份: 2020
• 资助国家: 美国
• 起止时间: 2020-07-01 至 2022-06-30
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/10039314
• 关键词: Acute; Animal Model; Anti-Bacterial Agents; Antibodies; Apoptosis; Area; Asia; Bacteria; Bacterial Infections; Bite; Blood Circulation; Bone Marrow; CXCR4 gene; Cell Death; Cells; Chiggers; Clinical Trials; Color; Complex; Confocal Microscopy; Containment; Cytoplasmic Granules; Data; Disease; Disease Progression; Dyes; Ear; Equus caballus; Evaluation; Event; FDA approved; Fever; Flow Cytometry; Fluorescence; Fluorescent Dyes; Focal Infection; Gene Expression; Generations; Genetic; Goals; Hemorrhage; Histologic; Histology; Hour; Immune; In Situ; In Vitro; Infection; Infectious Skin Diseases; Inflammation; Interleukin-4; Interleukin-8B Receptor; Intervention; Knowledge; Label; Larva; Lead; Life; Lung; Measures; Mediating; Mites; Modeling; Mus; Myeloid Cells; NADPH Oxidase; Organ; Organ failure; Organism; Orientia tsutsugamushi; Pathogenesis; Pathogenicity; Pattern; Phagocytes; Phenotype; Population; Postdoctoral Fellow; Process; Production; Public Health; Quantitative Reverse Transcriptase PCR; Reactive Oxygen Species; Research; Role; Route; Scrub Typhus; Site; Skin; Spleen; Stains; Surface; Technology; Testing; Therapeutic; Tissues; Vector-transmitted infectious disease; Visceral; Western Blotting; Work; acute infection; arginase; bactericide; base; chemokine receptor; cytokine; design; draining lymph node; effective intervention; extracellular; host-microbe interactions; in vivo; infection risk; insight; macrophage; migration; mouse model; nano-string; neglect; neutrophil; novel; novel therapeutic intervention; pathogen; recruit; tissue injury; tool; transmission process

Abstract Scrub typhus is a life-threatening zoonosis caused by Orientia tsutsugamushi organisms that are transmitted by the larvae of trombiculid mites. About one third of the world’s population is at risk of infection. However, the mechanism of bacterial dissemination from the skin and the reason that innate immune cells fail to control local infection are unknown; it is technically challenging to track the bacteria during infection in vivo. This project will use our newly established intradermal (i.d.) infection mouse model and fluorescence-labeled bacteria to define the mechanisms of bacterial dissemination. Our preliminary mouse data revealed containment and survival of CFSE-labeled Orientia in neutrophils for at least 12 hours in vitro. We also found neutrophils as the major infiltrating cell population responding to inactivated Orientia in the mouse skin. Given that neutrophil depletion via antibodies promoted mouse survival against acute infection in a lethal infection (i.v. infection model), we want to test the hypothesis that Orientia bacteria can hijack and utilize neutrophils as Trojan horses against host bactericidal activities, allowing bacterial dissemination from the initial skin infection sites to visceral organs. Specific Aim 1 will examine the dynamics of myeloid cell recruitment in the skin and the bacterial load in unique cell populations using multi-color flow cytometry. We will also evaluate effects of Orientia infection on neutrophil bactericidal activity, including reactive oxygen species generation, neutrophil extracellular trap formation, and granules/cytokine production both in vitro and in vivo. Specific Aim 2 will define neutrophil- mediated Orientia dissemination and immunopathogenesis. We will track CFSE-labeled Orientia among various organs (e.g. draining lymph nodes, bone marrow, lung, and spleen) after i.d. inoculation. Cellular markers of reverse migration will also be examined. To further validate the pathogenic role of neutrophils during disease progression, we will modulate neutrophils migration using selective and potent antagonists. This work will provide new insights into the innate immune determinants of Orientia infection and will lay the groundwork for our long-term goal of developing promising therapeutic strategies for this and other vector- borne diseases that share a common route of pathogen dissemination.

摘要 森林斑疹伤寒是一种威胁生命的人畜共患病，由东方体引起，可通过传播。 由田鼠的幼虫寄生。世界上约三分之一的人口面临感染的风险。然而， 细菌从皮肤传播的机制和天然免疫细胞未能控制局部的原因 感染是未知的；在体内感染期间追踪细菌在技术上是具有挑战性的。这个项目将 使用我们新建立的皮内(I.D.)小鼠感染模型和荧光标记细菌的确定 细菌传播的机制。我们的初步老鼠数据显示， CFSE标记的东方体在中性粒细胞体外至少12小时。我们还发现中性粒细胞是主要的 小鼠皮肤对灭活的东方体反应的渗透细胞群。考虑到中性粒细胞的耗尽 VIA抗体促进了小鼠在致死性感染中抵抗急性感染的存活(静脉注射。感染模型)，我们 我想测试东方体细菌可以劫持中性粒细胞并将其用作特洛伊木马的假设 宿主杀菌活动，使细菌从最初的皮肤感染部位传播到内脏器官。 特殊目标1将检查皮肤中髓系细胞募集的动态和独特的 用多色流式细胞术检测细胞数量。我们还将评估东方体感染对 中性粒细胞杀菌活性，包括产生活性氧物种、中性粒细胞胞外陷阱 在体外和体内的形成和颗粒/细胞因子的产生。特定目标2将定义中性粒细胞- 介导的东方体传播和免疫发病机制。我们将追踪CFSE标记的东方体 不同器官(如引流淋巴结、骨髓、肺和脾)的注射后。接种疫苗。蜂窝 还将检查反向迁徙的标志。进一步验证中性粒细胞的致病作用 在疾病发展过程中，我们将使用选择性和有效的拮抗剂来调节中性粒细胞的迁移。 这项工作将为东方体感染的先天免疫决定因素提供新的见解，并将为 为我们的长期目标奠定基础，为该载体和其他载体开发有前景的治疗策略- 共用一条病原体传播途径的传染病。