Characterizing MHCI's neuroactivity

描述 MHCI 的神经活动

• 批准号: 7345643
• 负责人: DANIEL KAUFMAN
• 金额: $ 16.88万
• 依托单位: UNIVERSITY OF CALIFORNIA LOS ANGELES
• 依托单位国家: 美国
• 财政年份: 2006
• 资助国家: 美国
• 起止时间: 2006-01-01 至 2007-12-31
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/7345643
• 关键词: ABCC1 gene; Address; Alleles; Antibodies; Area; Axon; Binding; Biological; Brain; CD3 Antigens; CD8B1 gene; Cell physiology; Cell surface; Cells; Chromosome Pairing; Class; Clinical; Complex; Condition; Development; Disease; Embryo; Histocompatibility; Immune; Immune system; Immunologic Surveillance; Immunologist; In Situ Hybridization; In Vitro; Inflammatory; Label; Lead; Ligands; MHC Class I Genes; Mediating; Modeling; Mus; Natural Killer Cells; Neurites; Neurobiology; Neurologic; Neuronal Plasticity; Neurons; Numbers; Pattern; Pattern Recognition; Peptides; Physiological; Play; Principal Investigator; Proteins; Reagent; Recombinants; Research; Retina; Retinal; Role; Synapses; System; T-Lymphocyte; TAP1 gene; Testing; Thinking; Time; Tissues; Transcript; Translating; Trauma; clinically relevant; cytokine; functional disability; neurodevelopment; peptide I; preference; programs; receptor; response

DESCRIPTION (provided by applicant): Major histocompatibility class I (MHCI) has been widely studied because of its role in the positive and negative selection of CD8+ T cells, and in activating or suppressing T cell and NK cells. Neurons have been thought to express little or no MHCI, except in response to inflammatory cytokines, trauma, or functional impairment. However, recent studies have demonstrated that MHCI is expressed by some neurons whose synapses undergo activity-dependent remodeling. Notably, mice lacking 82M, TAP1 and CD3¿ have deficiencies in eliminating inappropriate neuronal synaptic connections, suggesting that MHCI and a CD3^-containing receptor are involved in the selection of neuronal synaptic connections. Thus, key molecules involved in immune system function may also be involved in CNS development and plasticity. Although the lack of functional MHCI has been associated with developmental CNS aberrations, the neuroactivity of MHCI has not been directly tested. The in vitro explant system we describe herein is the first neuronal model to be responsive to exogenous MHCI. Our results show that MHCI can inhibit neuronal outgrowth in vitro. This MHCI neuroactivity is distinct from its proposed role in selecting synaptic connections, and may have parallels with MHCI's ability to inhibit T cell and NK cell function. Using this in vitro system, we can address several of the key questions in this emerging field. First, does the recognition of MHCI by CNS receptors depend on the specific MHCI allele and the presented peptide (as in the adaptive immune system), or is its recognition non-specific for the MHCI allele and presented peptide (as often occurs in the innate immune system). Second, while there is growing information on the expression pattern of MHCI in the CNS, little is known about the expression pattern of MHCI receptor(s) in the CNS. Using MHCI receptor ligands, we will for the first time, visualize classical MHCI receptors in CNS tissue sections. We will characterize the expression pattern of MHCI receptors in the developing CNS. Finally, we will determine whether different MHCI alelle/peptide combinations are recognized by different neurons. This R21 proposal addresses key questions in a new area of research, the results of which may provide important conceptual advances. Conceivably, treatments that limit the neuroinhibitory effects of MHCI could lead to new clinical approaches to mitigate neuropathological disorders.

描述（由申请方提供）：主要组织相容性I类（MHCI）由于其在CD 8 + T细胞的阳性和阴性选择中以及在激活或抑制T细胞和NK细胞中的作用而被广泛研究。神经元被认为表达很少或不表达MHCI，除了对炎性细胞因子、创伤或功能损伤的反应。然而，最近的研究表明，MHCI表达的一些神经元的突触进行活动依赖性重塑。值得注意的是，缺乏82 M、TAP 1和CD 3 ^的小鼠在消除不适当的神经元突触连接方面存在缺陷，这表明MHCI和含CD 3 ^的受体参与了神经元突触连接的选择。因此，参与免疫系统功能的关键分子也可能参与CNS发育和可塑性。尽管功能性MHCI的缺乏与发育性CNS畸变相关，但MHCI的神经活性尚未直接测试。我们在此描述的体外外植体系统是第一个对外源性MHCI有反应的神经元模型。我们的研究结果表明，MHCI可以抑制体外神经元的生长。这种MHCI神经活性与其在选择突触连接中的作用不同，并且可能与MHCI抑制T细胞和NK细胞功能的能力相似。使用这种体外系统，我们可以解决这个新兴领域的几个关键问题。首先，CNS受体对MHCI的识别是否依赖于特定的MHCI等位基因和呈递肽（如在适应性免疫系统中），或者其识别对于MHCI等位基因和呈递肽是非特异性的（如经常发生在先天免疫系统中）。第二，尽管关于MHCI在CNS中的表达模式的信息越来越多，但关于MHCI受体在CNS中的表达模式知之甚少。使用MHCI受体配体，我们将首次在CNS组织切片中可视化经典的MHCI受体。我们将描述MHCI受体在发育中的CNS中的表达模式。最后，我们将确定不同的MHCI等位基因/肽组合是否被不同的神经元识别。这一R21建议涉及一个新的研究领域的关键问题，其结果可能提供重要的概念性进展。可以想象，限制MHCI的神经抑制作用的治疗可能会导致新的临床方法来减轻神经病理学疾病。