Titrating CD45 expression in mice to study development of T cell tolerance

滴定小鼠 CD45 表达以研究 T 细胞耐受的发展

基本信息

批准号：
8098871
负责人：
JULIE ZIKHERMAN
金额：
$ 11.96万
依托单位：
UNIVERSITY OF CALIFORNIA, SAN FRANCISCO
依托单位国家：
美国
项目类别：
财政年份：
2010
资助国家：
美国
起止时间：
2010-07-01 至 2015-06-30
项目状态：
已结题

来源：
https://reporter.nih.gov/project-details/8098871
关键词：
Address Advisory Committees Affect Animals Antigen Receptors Arts Autoantigens Autoimmune Diseases Autoimmune Polyendocrinopathies Autoimmunity Biological Bone Marrow Celiac Disease Cells Cellular Immunology Characteristics Chimera organism Chronic Disease Clinical Data Development Developmental Biology Disease Dose Environment Equilibrium Exhibits Foundations Future Genes Genetic Genetic Polymorphism Goals Grant Host Defense Human Human Genetics Immune Tolerance Immune system Immunologic Deficiency Syndromes Immunology Individual Insulin-Dependent Diabetes Mellitus Investigation Investments Journals Laboratories Light Link Medicine Mentors Molecular Molecular Immunology Morbidity - disease rate Mus Myasthenia Gravis Organ Organ Model Output PTPRC gene Pathogenesis Peripheral Phenotype Phosphoric Monoester Hydrolases Phosphotransferases Physiological Play Positioning Attribute Process Radio Receptor Signaling Regulation Research Research Personnel Research Proposals Resistance Rheumatoid Arthritis Rheumatology Role Scientist Series Signal Transduction Sorting - Cell Movement Specificity Staining method Stains Surface Syndrome System T-Cell Development T-Cell Receptor T-Lymphocyte Thymic epithelial cell Thymocyte Selection Thymus Gland Titrations Training Transcriptional Regulation Work analog autoreactive T cell career career development central tolerance design digital experience genetic risk factor meetings molecular phenotype mortality novel novel strategies novel therapeutics professor programs research study thymocyte treatment strategy

项目摘要

DESCRIPTION (provided by applicant): This proposal describes a five year career development program whose goal is to prepare Dr. Julie Zikherman for a career as an independent investigator. This program will build on Dr. Zikherman's experience in clinical rheumatology, basic developmental biology and basic immunology in order to expand an emerging research program and provide her with further expertise in the design and conduct of cellular and molecular immunology research. The long-term goal is to establish an independent laboratory dedicated to the study of basic mechanisms of autoimmune disease pathogenesis, with a focus on how antigen receptor signaling can establish and subvert immune tolerance. The central guidance and training environment for this project will be provided by the mentor, Dr. Art Weiss, Engleman Distinguished Professor of Medicine, and Division Chief of Rheumatology at UCSF, as well as an expert in T cell receptor signaling. The training plan includes formal course work and didactic training through attendance of seminar series, journal clubs, UCSF retreats and scientific meetings, as well as guidance by an advisory committee of established scientists, and a research program that will provide additional technical training along with new directions for independent investigation. The studies proposed in this grant are intended to elucidate how altered T cell receptor signaling can subvert mechanisms of central tolerance and produce autoimmunity in humans. In her preliminary data, Dr. Zikherman has generated an allelic series of mice expressing distinct levels of CD45, and demonstrated that varying CD45 dose produces stable titration of TCR signaling intensity as well as quantitative changes in thymic output. In the research proposal, Dr. Zikherman will take advantage of this novel system to study how titration of TCR signaling intensity regulates thymic cell fate, transcriptional machinery and ultimately functional T cell repertoire. In the first part of the proposal, Dr. Zikherman will use genetic approaches and bone marrow chimeras to define the regulation of positive and negative selection in the allelic series. In the second part she will characterize the molecular phenotype of allelic series thymocytes by defining expression of key transcriptional regulators of positive selection. In the final part of the proposal, Dr. Zikherman will capitalize on the ability to track individual autoreactive cells in the context of the Aire-/- model of organ-specific autoimmunity to study how TCR signaling affects functional T cell repertoire. Together, these experiments will serve to characterize the cellular, molecular, and functional consequences of altered TCR signaling during T cell development. These studies will illuminate the mechanisms by which altered TCR signaling undermines central tolerance to produce disease. In addition to addressing the questions posed in this research proposal, the studies outlined above will serve as a foundation for future work that will enable Dr. Zikherman to become an independent investigator.

描述（由申请人提供）：该提案描述了一项五年的职业发展计划，其目标是为朱莉·齐克赫曼（Julie Zikherman）博士做好准备，成为独立调查员的职业。该计划将基于Zikherman博士在临床风湿病学，基本发育生物学和基本免疫学方面的经验，以扩大新兴研究计划，并为她提供进一步的专业知识，以在细胞和分子免疫学研究的设计和行为方面提供进一步的专业知识。长期目标是建立一个独立的实验室，该实验室致力于研究自身免疫性疾病发病机理的基本机制，重点是抗原受体信号如何建立和颠覆免疫耐受性。该项目的中央指导和培训环境将由UCSF的Engleman杰出医学教授兼风湿病学系Art Weiss博士以及T细胞受体信号传导的专家提供。该培训计划包括通过参加研讨会系列，期刊俱乐部，UCSF务虚会和科学会议的正式课程工作和教学培训，以及成熟科学家咨询委员会的指导，以及将提供额外的技术培训以及新的技术培训以及新的独立调查指导。该赠款中提出的研究旨在阐明改变T细胞受体信号的改变如何颠覆中央耐受性的机制并在人类中产生自身免疫性。在她的初步数据中，Zikherman博士产生了一系列表达不同水平CD45的小鼠，并证明不同的CD45剂量会产生TCR信号传导强度的稳定滴定以及胸腺输出的定量变化。在研究建议中，Zikherman博士将利用这一新型系统来研究TCR信号强度的滴定如何调节胸细胞命运，转录机械和最终功能性T细胞库。在该提案的第一部分中，Zikherman博士将使用遗传方法和骨髓嵌合体来定义等位基因系列中正和阴性选择的调节。在第二部分中，她将通过定义阳性选择的关键转录调节剂的表达来表征等位基因系列胸腺细胞的分子表型。在提案的最后部分，Zikherman博士将利用在器官特异性自身免疫性的AIRE-/ - 模型中跟踪单个自动反应性细胞的能力，以研究TCR信号如何影响功能性T细胞库。总之，这些实验将有助于表征T细胞发育过程中TCR信号改变的细胞，分子和功能后果。这些研究将阐明TCR信号改变的机制会破坏产生疾病的中心耐受性。除了解决本研究计划中提出的问题外，上面概述的研究还将成为未来工作的基础，这将使Zikherman博士能够成为独立的研究者。