Dscam function in innate immunity

Dscam 在先天免疫中的作用

• 批准号: 8074497
• 负责人: George Dimopoulos
• 金额: $ 32.47万
• 依托单位: JOHNS HOPKINS UNIVERSITY
• 依托单位国家: 美国
• 财政年份: 2010
• 资助国家: 美国
• 起止时间: 2010-06-01 至 2015-05-31
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/8074497
• 关键词: Address; Adhesives; Affinity; Alternative Splicing; Anopheles Genus; Anopheles gambiae; Anti-Bacterial Agents; Bacteria; Biological Assay; Cell Line; Characteristics; Complex; Culicidae; Development; Down Syndrome Cell Adhesion Molecule; Exons; Exposure to; Generations; Genes; Genomics; Goals; Immune; Immune response; Immune system; Immunologic Surveillance; Individual; Infection; Insecta; Malaria; Maps; Microbe; Modeling; Molecular; Natural Immunity; Parasites; Pathway interactions; Pattern; Pattern recognition receptor; Plasmodium; Play; Production; Property; Protein Region; RNA Interference; RNA Splicing; Regulation; Research; Research Proposals; Resistance; Role; Signal Pathway; Specificity; Staining method; Stains; Study models; Testing; Transgenic Organisms; Virus; antimicrobial; base; combat; coping; fight against; functional genomics; fungus; in vivo; insight; killings; microbial; pathogen; public health relevance; receptor; research study; tool

DESCRIPTION (provided by applicant): Anopheles gambiae and other insects utilize a variety of strategies to combat microbial invaders. The long-term goal of the PIs research is to characterize and understand the mechanisms of innate immunity used by the mosquito against microbes. This proposal focuses on the particular role of the Down syndrome cell adhesion molecule (Dscam) as a hypervariable immune surveillance receptor. Dscam's complex genomic organization and remarkable properties suggest that it plays multiple roles in immune defense: In A. gambiae, alternative splicing of the AgDscam gene produces >31,920 alternative splice- form receptors with different adhesive characteristics and specificities. AgDscam produces microbe-specific splice-form repertoires upon immune challenge and is involved in both antibacterial and anti-Plasmodium defense. The studies outlined here will further test the hypothesis that, as previously shown for challenge with a limited number of bacteria, this phenotypic plasticity of the AgDscam gene allows it to produce receptor molecules with potent antimicrobial activity and high affinity for bacteria and the Plasmodium parasite. To test this hypothesis, the proposed studies will use RNAi silencing, immunohistochemical staining, microarray analyses, and interaction analyses to determine (in Specific Aim 1) the regulation of AgDscam splicing and production of splice form repertoire by microbe challenge and the innate immune pathways, and (in Aims 2) the specific splice-form repertoires involved in these defenses and interactions with microbes. We will finally test the anti-Plasmodium defense specificity and efficacy of AgDscam in genetically modified mosquito lines that over-express pathogen specific splice forms (in Specific Aim 3). These analyses will elucidate one of the most remarkable players of the insect innate immune system, which allows it to cope with a broad spectrum of microbes through the microbe challenge specific production of pattern recognition receptors. The study will also assess the feasibility to use AgDscam for the generation of Plasmodium resistant mosquitoes that could be used for the development of a malaria control strategy. PUBLIC HEALTH RELEVANCE: The Anopheles mosquito uses its innate immune system to fight against a broad spectrum of microbial pathogens including the Plasmodium parasite. This research proposal aims at the study of a hypervariable pattern recognition receptor, AgDscam, to understand its immune related regulation and assess its capacity to kill Plasmodium.

描述（由申请人提供）：冈比亚按蚊和其他昆虫利用多种策略来对抗微生物入侵者。 PI 研究的长期目标是表征和了解蚊子针对微生物使用的先天免疫机制。该提案重点关注唐氏综合症细胞粘附分子（Dscam）作为高变免疫监视受体的特殊作用。 Dscam 复杂的基因组组织和显着的特性表明它在免疫防御中发挥多种作用：在冈比亚曲霉中，AgDscam 基因的选择性剪接产生超过 31,920 个具有不同粘附特征和特异性的选择性剪接形式受体。 AgDscam 在免疫攻击后产生微生物特异性剪接形式库，并参与抗菌和抗疟原虫防御。这里概述的研究将进一步检验以下假设：正如之前针对有限数量细菌的挑战所显示的，AgDscam 基因的这种表型可塑性使其能够产生具有强效抗菌活性以及对细菌和疟原虫寄生虫具有高亲和力的受体分子。为了检验这一假设，拟议的研究将使用 RNAi 沉默、免疫组织化学染色、微阵列分析和相互作用分析来确定（在具体目标 1 中）微生物挑战和先天免疫途径对 AgDscam 剪接和剪接形式库的产生的调节，以及（在目标 2 中）参与这些防御和与微生物相互作用的特定剪接形式库。我们最终将测试 AgDscam 在过度表达病原体特异性剪接形式的转基因蚊子系中的抗疟原虫防御特异性和功效（在具体目标 3 中）。这些分析将阐明昆虫先天免疫系统最显着的参与者之一，这使得昆虫能够通过模式识别受体的微生物挑战特异性产生来应对广泛的微生物。该研究还将评估使用 AgDscam 产生抗疟原虫蚊子的可行性，该蚊子可用于制定疟疾控制策略。 公共卫生相关性：按蚊利用其先天免疫系统来对抗包括疟原虫寄生虫在内的多种微生物病原体。该研究计划旨在研究高变模式识别受体 AgDscam，以了解其免疫相关调节并评估其杀死疟原虫的能力。