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Antigen Presentation and T cell Programming in Human Autoimmune Diseases

人类自身免疫性疾病中的抗原呈递和 T 细胞编程

基本信息

批准号：
8705341
负责人：
VIJAY K. KUCHROO
金额：
$ 168.76万
依托单位：
DANA-FARBER CANCER INST
依托单位国家：
美国
项目类别：
财政年份：
1999
资助国家：
美国
起止时间：
1999-09-30 至 2018-08-31
项目状态：
已结题

来源：
https://reporter.nih.gov/project-details/8705341
关键词：
Address Affect Affinity Age Animal Model Antibodies Antigen Presentation Antigen-Presenting Cells Antigens Area Autoantigens Autoimmune Diseases Autoimmune Process Autoimmunity Autologous Autologous Dendritic Cells B-Lymphocytes Biological Assay Biological Process Biophysics Blood CD4 Positive T Lymphocytes Cell Communication Cell physiology Cell surface Cells Cellular Immunology Cerebrospinal Fluid Chronic Clinical Coculture Techniques Collaborations Complex Cytometry Data Dendritic Cells Detection Development Devices Diagnosis Disease Engineering Epithelial Cells Experimental Autoimmune Encephalomyelitis Extracellular Matrix Frequencies Funding Gene Expression Genetic Genetic Load Genetic Polymorphism Genotype Glass Goals Haplotypes Health Hereditary Disease Human Immunologic Monitoring Immunology In Vitro Incubated Individual Inflammation Inflammatory Interferons Interleukin-10 Interleukin-17 Investigation Knock-in Mouse Knockout Mice Knowledge Label Lesion Love Lymphocyte Lymphoid Lymphoid Follicle Mature B-Lymphocyte Measures Methods Molecular Molecular Immunology Multiple Sclerosis Multiple Sclerosis Lesions Mus Myelin Nitric Oxide Optic Neuritis Organ Outcome Study Pathogenesis Pathology Pathway interactions Patients Phenotype Physiologic pulse Play Population Principal Investigator Printing Process Production Program Research Project Grants Property Protein Microchips Proteins Recording of previous events Regulatory T-Lymphocyte Research Research Personnel Reticular Cell Role Sampling Slide Societies Specificity Stromal Cells Structure Structure of germinal center of lymph node Surface T cell response T-Lymphocyte Techniques Technology Time Transgenic Mice Treatment Efficacy United States National Institutes of Health Variant Work autoreactive T cell base chemokine cytokine disorder control elastomeric flexibility insight interest lymph nodes medical schools mouse model multidisciplinary nanolitre new technology new therapeutic target novel novel strategies podoplanin prevent programs public health relevance response risk variant rituximab robotic device seal young adult

项目摘要

DESCRIPTION (provided by applicant): Antigen presentation is an integral component of every autoimmune disease process, and thus represents an important scientific and clinical problem. The seven investigators who come together in this PPG have highly complementary areas of expertise and have formed a cohesive, multidisciplinary program. The overarching hypothesis is that the development and progression of autoimmune diseases are controlled by specialized populations of antigen-presenting cells (APCs) that serve distinct roles in the induction of different effector and regulatory T cell programs. The team emphasizes direct investigation of APC - T cell interactions in patients with autoimmune diseases, in particular multiple sclerosis (MS), and integrates these human immunological studies with in-depth mechanistic studies in relevant animal models. During the previous funding period, the group developed a novel nanowell-based technology platform for multiplexed investigation of T cell function in autoimmune diseases. The technology enables co-culture of single T cells with mature dendritic cells in wells of subnanoliter volume for multi-dimensional characterization of cytokine secretion and surface markers. Furthermore, responding T cells can be recovered with a robotic device for characterization of transcriptional programs. This technique will be used by all investigators to examine the functional consequences of T cell interactions with distinct populations of APC. The team will address a long-standing challenge in the field and define the functional and molecular differences between self-reactive T cells in patients with MS and healthy subjects. Studies in MS CNS lesions and animal models will examine how the interaction of T cells with different populations of APCs results in the formation of chronic inflammatory microenvironments in the target organ. Of particular interest is the complex interplay between T cells, B cells and stromal cells that results in the formation of ectopic lymphoid follicles in the CNS. Studies during the previous funding period have shown that Th17 cells express podoplanin (PDPN), a surface molecule that interacts with CLEC-2 on B cells and mature dendritic cells. Antibody-based blockade of PDPN function prevents formation of ectopic lymphoid follicles, and the function of these molecules will now be studied in MS lesions and conditional knock-out mice. The program is highly synergistic based on our focus on an important problem in the autoimmunity field, and our highly collaborative approach integrates a unique team of investigators with expertise in molecular and cellular immunology, biophysics, and engineering to investigate disease mechanisms in autoimmunity with cutting-edge technologies.

描述（由申请人提供）：抗原呈递是每一个自身免疫性疾病过程的组成部分，因此代表了一个重要的科学和临床问题。在这个PPG中聚集的七名研究人员具有高度互补的专业领域，并形成了一个有凝聚力的多学科项目。总的假设是，自身免疫性疾病的发生和进展是由抗原呈递细胞（APCs）的特殊群体控制的，这些细胞在诱导不同的效应和调节性T细胞程序中起着不同的作用。该团队强调在自身免疫性疾病，特别是多发性硬化症（MS）患者中APC - T细胞相互作用的直接研究，并将这些人类免疫学研究与相关动物模型的深入机制研究结合起来。在之前的资助期间，该小组开发了一种新的基于纳米孔的技术平台，用于自身免疫性疾病中T细胞功能的多重研究。该技术使单个T细胞与成熟树突状细胞在亚纳升体积的井中共同培养，用于细胞因子分泌和表面标记物的多维表征。此外，应答的T细胞可以用机器人装置来恢复转录程序的特征。这项技术将被所有研究人员用于检查T细胞与不同APC群体相互作用的功能后果。该团队将解决该领域长期存在的挑战，并确定MS患者和健康受试者的自反应性T细胞之间的功能和分子差异。在MS CNS病变和动物模型中的研究将检验T细胞与不同APCs群体的相互作用如何导致靶器官中慢性炎症微环境的形成。特别令人感兴趣的是T细胞、B细胞和基质细胞之间复杂的相互作用，导致中枢神经系统中异位淋巴滤泡的形成。先前资助期的研究表明，Th17细胞表达podoplanin (PDPN)，这是一种与B细胞和成熟树突状细胞上的CLEC-2相互作用的表面分子。基于抗体的PDPN功能阻断可防止异位淋巴滤泡的形成，现在将在MS病变和条件敲除小鼠中研究这些分子的功能。该项目是高度协同的，基于我们对自身免疫领域一个重要问题的关注，我们高度协作的方法整合了一个独特的研究团队，他们具有分子和细胞免疫学、生物物理学和工程学方面的专业知识，用尖端技术研究自身免疫的疾病机制。