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Role of Spiral Ligament Fibrocytes in Inner Ear Inflammation

螺旋韧带纤维细胞在内耳炎症中的作用

基本信息

批准号：
7763164
负责人：
Sung K. Moon
金额：
$ 18.41万
依托单位：
HOUSE RESEARCH INSTITUTE
依托单位国家：
美国
项目类别：
财政年份：
2008
资助国家：
美国
起止时间：
2008-03-01 至 2012-02-28
项目状态：
已结题

来源：
https://reporter.nih.gov/project-details/7763164
关键词：
Academic achievement Acoustic Trauma Affect Animal Model Binding Binding Sites Biological Models CCL2 gene Cells Child Language Chronic Cochlea Complication Cytomegalovirus Development Effector Cell Enhancers Epithelial Cells Etiology Frequencies Future Goals Gram-Negative Bacteria Hair Cells Hearing Hearing Tests Immune In Vitro Incidence Inflammation Inflammation Mediators Inflammatory Labyrinth Language Development Ligaments Light Mediating Meniere&apos s Disease Modeling Molecular Mus Nontypable Haemophilus influenza Otitis Media Pathogenesis Patients Phosphorylation Phosphorylation Site Play Recruitment Activity Role Secondary to Sensorineural Hearing Loss Signal Pathway Testing Toll-Like Receptor 2 Up-Regulation cell injury cell type chemokine ear infection hearing impairment in vivo Model inner ear diseases middle ear monocyte mouse toll-like receptor 2 novel therapeutics pathogen prevent

项目摘要

DESCRIPTION (provided by applicant): Inflammation is associated with many inner ear disorders of unknown etiology. It is believed that otitis media (OM)-associated inner ear inflammation results in high frequency sensorineural hearing loss (SNHL) in as high as 3% of OM patients. Moreover, the incidence can be underestimated because ultrahigh-frequency SNHL and transient hearing threshold shifts are hard to detect with routine hearing tests. However, it is not well known which type of inner ear cells involved in inner ear inflammation by recognizing bacterial molecules and recruiting inflammatory cells. The spiral ligament fibrocytes (SLFs) produce inflammatory mediators such as MCP1, attracting monocytes. Monocytes predominantly infiltrate cochlea with chronic OM or acoustic trauma. This makes MCP1 the ideal SLF-derived chemokine, attracting effector cells and causing inner ear damage. Nontypeable Haemophilus influenzae (NTHI) is the model organism for inducing inner ear inflammation, which is one of the major OM pathogens. Interestingly, toll-like receptor 2 (TLR2) plays a significant role in recognizing NTHI molecules in the epithelial cells even though it is a Gram-negative bacterium. We hypothesize that SLFs recognize NTHI molecules and release MCP1 through TLR2-dependent NF?B activation. Furthermore, we hypothesize that NTHI-induced MCP1 up-regulation is involved in inner ear inflammation secondary to OM, resulting in SNHL. We therefore propose the following three Specific Aims to test our hypotheses:; 1. Do SLFs release MCP1 upon recognition of NTHI through the TLR2-dependent signaling pathway? We will determine TLR2 expression in the cochlea and involvement of the TLR2-MyD88 signaling pathway in recognizing NTHI molecules by SLFs in both in vitro and in vivo models. 2. Does NTHI-induced MCP1 up-regulation require NF?B activation mediated by I?K¿-dependent I?Ba phosphorylation? We will investigate the involvement of I?K¿-dependent I?Ba phosphorylation in NTHI-induced MCP1 up- regulation and identify the specific NF?B subunits and binding sites that are responsive to NTHI. 3. Does the blockage of NTHI-induced MCP1 up-regulation prevent inner ear inflammation secondary to OM We will determine if the presence of NTHI lysate and MCP1 in the middle ear cavity cause inner ear inflammation, resulting in SNHL and explore the possibility of blocking TLR2 and depleting MCP1 to inhibit NTHI-induced SNHL. We believe that this project can shed light on the molecular pathogenesis of inner ear complications secondary to OM. Furthermore, the findings will facilitate future development of novel therapeutic strategies to prevent potential inner ear complications of OM. The goal of this project is to study how middle ear infection affects the inner ear. We aim to investigate the molecular pathogenesis related to bacterial recognition in the inner ear, inner ear inflammation, inner ear damage and hearing loss.

描述（由申请人提供）：炎症与许多病因不明的内耳疾病相关。据信，中耳炎（OM）相关的内耳炎症导致高达3%的OM患者的高频感音神经性听力损失（SNHL）。此外，由于超高频SNHL和瞬时听阈偏移很难通过常规听力测试检测到，因此其发生率可能被低估。然而，目前还不清楚哪种类型的内耳细胞通过识别细菌分子和招募炎症细胞参与内耳炎症。螺旋韧带纤维细胞（SLF）产生炎症介质，如MCP 1，吸引单核细胞。单核细胞主要浸润慢性OM或声损伤的耳蜗。这使得MCP 1成为理想的SLF衍生趋化因子，吸引效应细胞并导致内耳损伤。不可分型流感嗜血杆菌（NTHI）是诱发内耳炎症的模式生物，是OM的主要病原体之一。有趣的是，Toll样受体2（TLR 2）在识别上皮细胞中的NTHI分子中起重要作用，即使它是革兰氏阴性细菌。我们假设，SLF识别NTHI分子和释放MCP 1通过TLR 2依赖的NF？B激活。此外，我们假设NTHI诱导的MCP 1上调参与继发于OM的内耳炎症，导致SNHL。因此，我们提出以下三个具体目标来检验我们的假设： 1. SLF通过TLR 2依赖性信号通路识别NTHI后释放MCP 1吗？我们将确定TLR 2在耳蜗中的表达以及TLR 2-MyD 88信号通路在体外和体内模型中通过SLF识别NTHI分子的参与。 2. NTHI诱导的MCP 1上调需要NF吗？I？介导的B激活依赖K的I？Ba磷酸化？我们会调查我是否参与？依赖K的I？Ba磷酸化在NTHI诱导的MCP 1上调，并确定特定的NF？B亚基和对NTHI有反应的结合位点。 3.我们将确定中耳腔中NTHI裂解物和MCP 1的存在是否引起内耳炎症，导致SNHL，并探索阻断TLR 2和消耗MCP 1以抑制NTHI诱导的SNHL的可能性。我们相信这个项目可以阐明继发于OM的内耳并发症的分子发病机制。此外，这些发现将有助于未来开发新的治疗策略，以预防OM潜在的内耳并发症。这个项目的目的是研究中耳感染如何影响内耳。我们的目的是研究与内耳细菌识别、内耳炎症、内耳损伤和听力损失相关的分子发病机制。