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The Role of Leptin in Susceptibility to Amebiasis

瘦素在阿米巴病易感性中的作用

基本信息

批准号：
8664787
负责人：
Chelsea S. Marie
金额：
$ 5.8万
依托单位：
UNIVERSITY OF VIRGINIA
依托单位国家：
美国
项目类别：
财政年份：
2012
资助国家：
美国
起止时间：
2012-07-01 至 2015-10-31
项目状态：
已结题

来源：
https://reporter.nih.gov/project-details/8664787
关键词：
Address Affinity Amebiasis Amebic Liver Abscess Amebic colitis Amino Acid Substitution Area Binding Biological Assay Cell Line Cells Cessation of life Child Child health care Clinical Research Communicable Diseases Cytoplasmic Tail Data Development Disease Disease susceptibility Dominant-Negative Mutation Entamoeba histolytica Epithelial Cells Event Extracellular Domain Flow Cytometry Genetic Genetic Polymorphism Hormones Hypothalamic structure Immune Immune response Immunologic Factors In Vitro Infection Intestinal Cancer Intestines JAK2 gene Leptin Malnutrition Mediating Mediator of activation protein Metabolic Diseases Microarray Analysis Molecular Mucosal Immune Responses Mus PTPN11 gene Pathogenesis Pathway interactions Predisposition Receptor Signaling Research Resistance Role STAT3 gene Signal Pathway Signal Transduction Stat5 protein Surface Testing Tissues Tyrosine Vaccines Work cytokine cytotoxicity effective therapy enteric pathogen global health inhibitor/antagonist intestinal epithelium killings leptin receptor novel nutrition small hairpin RNA

项目摘要

DESCRIPTION (provided by applicant): Entamoeba histolytica is the pathogenic protozoan responsible for intestinal amebiasis and amebic liver abscess. E. histolytica is estimated to cause 50 million infections and 100,000 deaths annually and malnutrition is known to increase susceptibility to infection. The cytokine-like hormone leptin is reduced in the energy malnourished. Recent evidence that leptin is a pivotal mediator of susceptibility to amebiasis includes: 1) the identification of a polymorphism (Q223R) in the extracellular domain of the leptin receptor that significantly increases susceptibility in clinical studies; 2) demonstration that the Q223R polymorphism also increases susceptibility in mice; 3) the finding that tissue-specific deletion of the leptin receptor at the intestinal epithelium, but not in the hypothalamus, increases susceptibility in mice; and 4) demonstration that expression of the leptin receptor in single cells renders them resistant to amebic killing in vitro. Together these data indicate that leptin signaling directly protects intestinal epithelial cells from E. histolytica cytotoxicity, however the mechanism of protection is not understood. The central hypothesis of this project is that the Q223R polymorphism deregulates leptin receptor signaling and creates an intestinal epithelium that is permissive to E. histolytica infection. The following aims address the function of the Q223R polymorphism and the role of leptin signaling in cellular susceptibility to E. histolytica. Specific aim 1 will evaluate the functional consequences of the Q223R polymorphism by testing if leptin binding and/or surface expression of the leptin receptor is altered by the Q223R polymorphism. We will also test if the Q223R polymorphism alters activation of JAK2, SHP-2, STAT5 and STAT3 pathways through the leptin receptor. Specific aim 2 will determine the role of SHP-2, STAT5 and STAT3 signaling through the leptin receptor in cellular susceptibility to E. histolytica. The signaling pathway identified will be validated and downstream effectors of leptin receptor-mediated protection will be explored by microarray analysis. By evaluating the specific molecular consequences of a single polymorphism in the leptin receptor, we will begin to delineate a novel mechanism of mucosal immune defense. This work may have implications for the pathogenesis of other enteric pathogens, irritable bowel disease and intestinal cancer. Additionally, a greater understanding of the signaling events that connect malnutrition and the immune response will positively impact the health of children worldwide.

描述（由申请人提供）：溶组织内阿米巴原虫是引起肠道阿米巴病和阿米巴肝脓肿的致病性原虫。据估计，溶组织大肠杆菌每年造成5 000万人感染和10万人死亡，而营养不良已知会增加对感染的易感性。细胞因子样激素瘦素在能量不良时减少。最近的证据表明，瘦素是阿米巴病易感性的关键介质，包括：1)在临床研究中，瘦素受体细胞外区域的多态性（Q223R）的鉴定显着增加了易感性；2)证明Q223R多态性也会增加小鼠的易感性；3)发现肠上皮的瘦素受体而不是下丘脑的组织特异性缺失增加了小鼠的易感性；4)证明单细胞中瘦素受体的表达使它们在体外抵抗阿米巴的杀伤。综上所述，这些数据表明瘦素信号直接保护肠上皮细胞免受溶组织杆菌的细胞毒性，但其保护机制尚不清楚。该项目的中心假设是，Q223R多态性解除了对瘦素受体信号的调控，并创造了一个允许溶组织芽胞杆菌感染的肠上皮。下面的目的是探讨Q223R多态性的功能和瘦素信号在细胞对溶组织芽孢杆菌的易感性中的作用。具体目标1将通过检测Q223R多态性是否改变瘦素结合和/或瘦素受体的表面表达来评估Q223R多态性的功能后果。我们还将测试Q223R多态性是否通过瘦素受体改变JAK2、SHP-2、STAT5和STAT3通路的激活。特异性目的2将通过瘦素受体确定SHP-2、STAT5和STAT3信号在细胞对溶组织芽胞杆菌的易感性中的作用。鉴定的信号通路将被验证，瘦素受体介导的保护的下游效应将通过微阵列分析探索。通过评估瘦素受体单一多态性的特定分子后果，我们将开始描绘粘膜免疫防御的新机制。这项工作可能对其他肠道病原体，肠易激病和肠癌的发病机制有启示。此外，对连接营养不良和免疫反应的信号事件的更深入了解将对全世界儿童的健康产生积极影响。