The Role of PAF and TLR in NEC

PAF 和 TLR 在 NEC 中的作用

• 批准号: 7262571
• 负责人: MICHAEL S CAPLAN
• 金额: $ 28.37万
• 依托单位: NORTHSHORE UNIVERSITY HEALTHSYSTEM
• 依托单位国家: 美国
• 财政年份: 2000
• 资助国家: 美国
• 起止时间: 2000-08-01 至 2010-06-30
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/7262571
• 关键词: Address; Affect; Animals; Asphyxia; Bacteria; Binding; Blood Platelet Antagonists; C3H/HeJ Mouse; C3HeB/FeJ Mouse; C57BL/6 Mouse; Caspase; Cell Wall; Cells; Complex; Control Animal; Cultured Cells; DNA Fragmentation; Data; Development; Developmental Biology; Disease; Dominant-Negative Mutation; Electrolytes; Enterocolitis; Enterocytes; Environment; Enzymes; Epithelial; Epithelial Cells; Etiology; Event; Frozen Sections; Functional disorder; Funding; Gene Expression; Genetic Determinism; Gram-Negative Bacteria; Growth; Host Defense; Human; Hypoxia; In Vitro; Incidence; Inflammation; Inflammatory; Inflammatory Response; Injury; Intestines; Ischemic Bowel Disease; Knock-out; Knockout Mice; Laboratories; Lipopolysaccharides; Measures; Mediator of activation protein; Messenger RNA; Modeling; Mothers; Mus; NF-kappa B; Necrosis; Necrotizing Enterocolitis; Neonatal; Newborn Animals; Operative Surgical Procedures; Pathogenesis; Pathology; Pathway interactions; Patients; Physiological; Platelet Activating Factor; Play; Polymerase Chain Reaction; Premature Infant; Principal Investigator; Process; Protein Biosynthesis; Proteins; Rattus; Reaction; Receptor Activation; Receptor Gene; Receptor Signaling; Regulation; Reporter; Research; Rodent; Role; STAT3 gene; Series; Signal Pathway; Signal Transduction; Specimen; Stress; Supplementation; TLR4 gene; Testing; Time; Toll-like receptors; Transgenic Mice; United States National Institutes of Health; Up-Regulation; Work; base; cell type; design; feeding; in vivo; intestinal epithelium; intracellular protein transport; laser capture microdissection; mouse model; mutant; neonate; novel; platelet activating factor receptor; prevent; programs; promoter; protein localization location; receptor; receptor expression; response; toll-like receptor 4

DESCRIPTION (provided by applicant): Necrotizing enterocolitis (NEC) is an abrupt and devastating inflammatory necrosis of the bowel affecting 10% of premature infants born weighing less than 1500 grams. Although the etiology of this complex disorder is poorly understood, the evidence suggests that intestinal ischemia, formula feeding, and bacterial challenge activates platelet activating factor (PAF) and other inflammatory mediators leading to intestinal injury. Results from our previous NIH funded project have shown that PAF receptor activation by PAF leads to a series of physiological and/or pathological changes in the intestinal epithelium, including the stimulation of transepithelial electrolyte transport, cytoplasmic acidification, caspase activation and DNA fragmentation. In addition, endogenous bacteria stimulate the inflammatory cascade and are a prerequisite for neonatal NEC. Specific bacterial cell wall products stimulate toll receptors (TLR's) on multiple cell types that result in significant downstream events. In a healthy intestinal environment, the mucosal barrier is poorly responsive to bacterial cell wall products, partly because of low or absent TLR expression. Nonetheless, in the neonate during early development and bacterial colonization, intestinal expression of TLR and regulation of this process is incompletely understood. We hypothesize that during the developmental acquisition of neonatal bacterial colonization with the addition of asphyxia stress, there is abnormal intestinal gene expression of TLR-4, and that PAF contributes to this abnormal upregulation. Following TLR activation, downstream signaling initiates a series of events that culminate in the final common pathway of intestinal necrosis and NEC. Utilizing a novel neonatal mouse model of NEC that will allow testing of genetically-altered animals and cell culture studies that will provide additional mechanistic detail, the research plan is designed to 1) characterize the developmental regulation of intestinal TLR expression and study the importance of TLR in human NEC and the neonatal mouse model, 2) delineate the signaling mechanisms responsible for PAF-induced TLR expression in intestinal epithelial cells from humans and rodents, and 3) investigate the role of PAF on intestinal TLR gene expression and protein synthesis in vivo. The proposed studies will elucidate the interactions between PAF and TLR signaling, and clarify whether these pathways play an underlying role in the initiation of neonatal NEC.

描述（由申请人提供）：坏死性小肠结肠炎（NEC）是一种突发性和破坏性的肠道炎性坏死，影响10%出生时体重低于1500克的早产儿。虽然这种复杂疾病的病因学知之甚少，但有证据表明，肠道缺血，配方喂养和细菌攻击激活血小板活化因子（PAF）和其他炎症介质，导致肠道损伤。我们前期NIH资助的研究结果表明，PAF激活PAF受体可导致肠上皮细胞发生一系列生理和/或病理变化，包括刺激跨上皮电解质转运、胞浆酸化、caspase激活和DNA断裂。此外，内源性细菌刺激炎症级联反应，是新生儿NEC的先决条件。特定的细菌细胞壁产物刺激多种细胞类型上的Toll受体（TLR），导致显著的下游事件。在健康的肠道环境中，粘膜屏障对细菌细胞壁产物的反应性差，部分原因是TLR表达低或不存在。尽管如此，在新生儿早期发育和细菌定植期间，TLR的肠道表达和该过程的调控尚不完全清楚。我们推测，在新生儿细菌定植的发展收购过程中，加上窒息应激，有TLR-4的肠道基因表达异常，PAF有助于这种异常上调。TLR激活后，下游信号传导启动一系列事件，最终导致肠坏死和NEC的最终共同途径。利用一种新的NEC新生小鼠模型，该模型将允许测试基因改变的动物和细胞培养研究，该研究将提供额外的机制细节，该研究计划旨在1）表征肠TLR表达的发育调节并研究TLR在人NEC和新生小鼠模型中的重要性，2）阐明PAF诱导人和啮齿类动物肠上皮细胞TLR表达的信号转导机制; 3）研究PAF在体内对肠TLR基因表达和蛋白质合成的作用。拟议的研究将阐明PAF和TLR信号之间的相互作用，并阐明这些途径是否在新生儿NEC的启动中发挥潜在的作用。