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Manipulating natural host immunoregulation via IDO during viral Infection

病毒感染期间通过 IDO 操纵自然宿主免疫调节

基本信息

批准号：
8063958
负责人：
Andrew Lee Mellor
金额：
$ 169.13万
依托单位：
AUGUSTA UNIVERSITY
依托单位国家：
美国
项目类别：
财政年份：
2009
资助国家：
美国
起止时间：
2009-05-01 至 2014-04-30
项目状态：
已结题

来源：
https://reporter.nih.gov/project-details/8063958
关键词：
Abbreviations Ablation Allergic Antigen-Presenting Cells Attenuated Autoimmune Process CCAAT-Enhancer-Binding Proteins Cells Cessation of life Chronic Clonal Expansion Cytotoxic T-Lymphocytes Dendritic Cells Dioxygenases Fetal Tissues Flu virus Generations Healed Homologous Protein IFNAR1 gene IL2RA gene Immune response Immunity Infection Inflammation Inflammatory Influenza Interferons Kinetics Ligands Lung Mediating Memory Modeling Mouse Strains Mus Myelogenous Pneumonia Pregnancy Process Prophylactic treatment Receptor Signaling Regulatory T-Lymphocyte Risk Role Signal Transduction Site Skin Syndrome T cell response T memory cell T-Lymphocyte Testing Therapeutic Therapeutic Intervention Tissues Toll-like receptors Transplantation Treatment Efficacy Vaccination Vaccines Viral Vector Virus Diseases clinically relevant combat flu graft vs host disease healing immunoregulation improved indoleamine influenza virus vaccine lymph nodes novel programs receptor response secondary infection tumor growth

项目摘要

DESCRIPTION (provided by applicant): The objective is to elucidate the effects of influenza (flu) virus infection and flu vaccines on a natural host T cell regulatory mechanism involving expression of indoleamine 2,3 dioxygenase (IDO). IDO-mediated T cell suppression contributes to chronic inflammatory syndromes of clinical relevance, including tumor growth, autoimmune, allergic, and graft-versus-host diseases. IDO activity blocks T cell responses to fetal tissues during pregnancy, and IDO over-expression enhances transplant survival. Flu infection induces a dramatic increase in IDO activity in lungs, and IDO activity facilitates secondary infections such as pneumonia. We hypothesize that IDO attenuates effector T cell immune responses to flu infection and to preventative vaccines. Such effects may promote tissue healing, but may blunt T cell responses to flu infection, impede generation protective immunity, and increase the risk of secondary infections. IDO expression by some plasmacytoid dendritic cells (pDCs) inhibits T cell responses at sites of inflammation. In preliminary studies we show that chemically-induced skin inflammation induced pDCs in skin draining lymph nodes (dLNs) to express IDO. IDO+ pDCs acquired potent T cell regulatory functions that blocked T cell clonal expansion, and triggered regulatory T cells (Tregs) to acquire suppressor activity. In studies proposed, we will employ new mouse strains and viral vectors to ablate IDO in an established murine flu infection model, and assess the effects of IDO ablation on flu-specific immunity, memory generation, and infection kinetics. We will identify lung cells expressing IDO, and inflammatory signals that stimulate IDO (Aim 1). In parallel, we will elucidate the effects of lung IDO+ cells on flu-specific effector and memory T cells (Aim 2). Related studies will focus on the effects of IDO ablation on flu vaccine prophylaxis and efficacy (Aim 3), and a novel means to enhance therapeutic vaccination to combat flu infections (Aim 4). Completion of studies proposed will improve understanding of the role of IDO in regulating T cell responses to flu, and will create novel opportunities for improving therapeutic interventions protect against flu.

描述（由申请人提供）：目的是阐明流感病毒感染和流感疫苗对天然宿主T细胞调节机制的影响，该机制涉及吲哚胺2，3双加氧酶（IDO）的表达。IDO介导的T细胞抑制导致临床相关的慢性炎性综合征，包括肿瘤生长、自身免疫性、过敏性和移植物抗宿主病。IDO活性阻断T细胞在妊娠期间对胎儿组织的应答，并且IDO过表达增强移植物存活。流感感染诱导肺中IDO活性的显著增加，并且IDO活性促进继发性感染如肺炎。我们假设IDO减弱效应T细胞对流感感染和预防性疫苗的免疫应答。这种作用可能会促进组织愈合，但可能会削弱T细胞对流感感染的反应，阻碍保护性免疫的产生，并增加继发感染的风险。一些浆细胞样树突状细胞（pDC）的IDO表达抑制炎症部位的T细胞应答。在初步研究中，我们显示化学诱导的皮肤炎症诱导皮肤引流淋巴结（dLN）中的pDC表达IDO。IDO+ pDC获得了有效的T细胞调节功能，其阻断T细胞克隆扩增，并触发调节性T细胞（TCLs）获得抑制活性。在所提出的研究中，我们将采用新的小鼠品系和病毒载体在已建立的鼠流感感染模型中消融IDO，并评估IDO消融对流感特异性免疫、记忆产生和感染动力学的影响。我们将鉴定表达IDO的肺细胞和刺激IDO的炎症信号（目的1）。同时，我们将阐明肺IDO+细胞对流感特异性效应T细胞和记忆T细胞的影响（目的2）。相关研究将集中在IDO消融对流感疫苗预防和有效性的影响（目标3），以及增强治疗性疫苗接种以对抗流感感染的新方法（目标4）。这些研究的完成将提高对IDO在调节T细胞对流感反应中的作用的理解，并将为改善预防流感的治疗干预措施创造新的机会。