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Molecular Characterization of T-bet's Role in Immunity

T-bet 在免疫中的作用的分子表征

基本信息

批准号：
6811196
负责人：
Amy Susan Weinmann
金额：
$ 32.82万
依托单位：
UNIVERSITY OF WASHINGTON
依托单位国家：
美国
项目类别：
财政年份：
2004
资助国家：
美国
起止时间：
2004-06-01 至 2009-05-31
项目状态：
已结题

项目摘要

DESCRIPTION (provided by applicant): Lineage-restricted transcription factors play a critical role in the hematopoietic differentiation process and the deregulation of even a single factor can lead to disease states such as leukemia, autoimmunity, and allergic reactions. Part of how this occurs is that the selective loss of a factor can drastically alter the development of critical effector cell populations. Therefore, identifying the gene expression cascades influenced by these factors will allow us to address the molecular mechanisms that contribute to the disease phenotypes. The transcription factor T-bet appears to play a significant role in the development of CD4+ T helper 1 cells. Th1 cells secrete IFNgamma and are important in the development of cell-mediated immunity. A hyperactive Th1 response can contribute to autoimmune diseases such as Crohn's disease and type 1diabetes. In addition to Th1 cells, T-bet is also expressed in multiple lineages in the immune system and is thought to contribute to cell-specific functions in each effector cell population. In the absence of T-bet, cell-specific defects occur in natural killer, dendritic, and B cells. It is also worth noting that murine disease models for Crohn's disease, asthma, and lupus have all been established by altering T-bet levels. Therefore, one may hypothesize that T-bet plays an important role in the developing immune response. The main goal of this proposal is to address the molecular mechanisms behind T-bet's role in the individual hematopoietic effector cell populations. Aim 1 is designed to identify direct T-bet target genes in each cell population. Is T-bet targeted to loci in a cell-specific manner or does it interact with the same genes in all cellular settings? To address this question, target gene identification strategies will be employed that utilize modifications to the chromatin immunoprecipitation procedure. These techniques will only identify genes that are directly bound by T-bet within the context of a given nuclear environment. In Aim 2, the functional consequence of T-bet's association with select promoters will be examined to determine if this interaction is productive in the different cellular settings. The studies in Aim 1 and 2 will provide a means to address T-bet's cell-specifications. Aims 3 and 4 will address the role T-bet plays in the transcriptional regulation of a few select target genes. Does T-bet function as a transcriptional activator or repressor? Does T-bet influence chromatin events or aid in RNA polymerase II recruitment to the promoter? Detailed transcriptional regulation studies of a few select target genes will aid in answering these questions.

描述（申请人提供）：谱系限制性转录因子在造血分化过程中起着至关重要的作用，即使是单个因子的失调也可能导致白血病、自身免疫和过敏反应等疾病状态。发生这种情况的部分原因是，一个因子的选择性丧失可以极大地改变关键效应细胞群的发育。因此，确定受这些因素影响的基因表达级联将使我们能够解决导致疾病表型的分子机制。转录因子T-bet似乎在CD4+ T辅助1细胞的发育中起重要作用。Th1细胞分泌IFNgamma，在细胞介导免疫的发展中起重要作用。过度活跃的Th1反应会导致自身免疫性疾病，如克罗恩病和1型糖尿病。除了Th1细胞外，T-bet也在免疫系统的多个谱系中表达，并且被认为在每个效应细胞群中都有助于细胞特异性功能。在T-bet缺失的情况下，细胞特异性缺陷发生在自然杀伤细胞、树突状细胞和B细胞中。同样值得注意的是，克罗恩病、哮喘和狼疮的小鼠疾病模型都是通过改变T-bet水平建立起来的。因此，人们可以假设T-bet在免疫反应的发展中起重要作用。本提案的主要目标是解决T-bet在个体造血效应细胞群中的作用背后的分子机制。Aim 1旨在鉴定每个细胞群中的直接T-bet靶基因。T-bet是以细胞特异性的方式靶向基因座，还是在所有细胞环境中与相同的基因相互作用？为了解决这个问题，靶基因鉴定策略将被采用，利用修改染色质免疫沉淀程序。这些技术将只识别在给定的核环境中直接与T-bet结合的基因。在目标2中，将检查T-bet与选定启动子关联的功能后果，以确定这种相互作用在不同的细胞环境中是否有效。目标1和目标2中的研究将提供一种解决T-bet细胞规格的方法。目的3和4将讨论T-bet在一些选择的靶基因的转录调控中所起的作用。T-bet是转录激活因子还是转录抑制因子？T-bet是否影响染色质事件或帮助RNA聚合酶II募集到启动子？对一些选定的靶基因进行详细的转录调控研究将有助于回答这些问题。