Interrogating innate immunity to helminth parasites

询问对蠕虫寄生虫的先天免疫力

• 批准号: 9020199
• 负责人: Mark Christopher Siracusa
• 金额: $ 10.8万
• 依托单位: RBHS-NEW JERSEY MEDICAL SCHOOL
• 依托单位国家: 美国
• 财政年份: 2015
• 资助国家: 美国
• 起止时间: 2015-03-01 至 2017-02-28
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/9020199
• 关键词: Address; Allergens; Allergic; Allergic Disease; Allergic inflammation; Antigens; Area; B-Lymphocytes; Basophilia; Basophils; CD4 Positive T Lymphocytes; Cell Differentiation process; Cells; Chronic; Clinical; Coculture Techniques; Communities; Coupled; Data; Dendritic Cells; Dendritic cell activation; Developed Countries; Development; Economic Burden; Epithelial Cells; Future; GATA3 gene; Goblet Cells; Growth; Health; Helminths; Human; Hyperplasia; IgE; IgG1; Immune; Immune response; Immunity; Immunoglobulin Class Switching; In Vitro; Individual; Infection; Inflammation; Interleukin-13; Interleukin-3; Interleukin-4; Interleukin-5; Interleukin-9; Lead; Life; Mediating; Molecular; Mucous body substance; Mus; Natural Immunity; Nematoda; Parasites; Pathway interactions; Population; Predisposition; Prevalence; Production; Publishing; Regulation; Reporting; Resistance; Resistance to infection; Role; STAT6 gene; Signal Transduction; Smooth Muscle; Soil; TSLP gene; Testing; Th2 Cells; Therapeutic; Time; Tissues; Trichuris; Work; adaptive immunity; base; cellular targeting; cytokine; disability; gastrointestinal; granulocyte; in vivo; mouse model; pandemic disease; prevent; response

DESCRIPTION (provided by applicant): The global prevalence of soil transmitted helminth infections is currently estimated at two billion individuals infected worldwide, with an estimated one billion people infected with Trichuris. Helminth infections can lead to significant malnutritio, growth retardation and long-term disability. In addition, infections of live stock populations in endemic areas exert enormous economic burdens on the local communities. Given the global prevalence of helminth infections coupled with the pandemic of allergic diseases in industrialized countries, it is critical to gain a better understanding of the pathways that contro TH2 cytokine-mediated immunity and inflammation. CD4+ TH2 cells produce IL-4, IL-5, IL-9 and IL-13, and their development is dependent on IL-4R, STAT6 and GATA3. In addition, B cells activated in the context of a TH2 cytokine response primarily class switch to produce antigen-specific IgG1 and IgE. Type 2 cytokine-driven inflammation in tissues results in goblet cell hyperplasia, mucus production, increased smooth muscle contractility, and the influx of granulocyte populations. Despite significant developments in our understanding of the pathways that control the differentiation and regulation of TH2 cells, the molecular and cellular pathways that initiate helminth- or allergen-specific TH2 cell responses remain poorly defined. My previous work demonstrates that TSLP promotes the population expansion of a phenotypically and functionally distinct, IL-3-independent basophil population and that TSLP-elicited basophils are sufficient to partially restore CD4+ TH2 cell responses and protective immunity to Trichuris in normally susceptible TSLPR-deficient mice. In addition, my new preliminary studies indicate, for the first time, that TSLP-elicited basophils cooperate with DCs to promote CD4+ TH2 cell responses and that TSLP-elicited basophils can directly alter the activation state of DC populations. Collectively, these data provoke the hypothesis that TSLP-elicited basophils promote TH2 cytokine-mediated inflammation and protective immunity to Trichuris by influencing the activation status of DC populations. Based on my new data, two specific aims will address the following questions: (i) Do TSLP-elicited basophils promote protective immunity to Trichuris? (ii) Do TSLP-elicited basophils regulate DC populations in a manner that promotes TH2 cytokine responses and protective immunity to Trichuris? Collectively, these studies will interrogate the innate immune mechanisms through which TSLP promotes protective immunity to Trichuris. I anticipate that defining the mechanisms through which TSLP and basophils promote protective immunity will direct future clinical efforts to prevent and treat soil transmitted helminth infectins.

描述（由申请方提供）：土壤传播蠕虫感染的全球流行率目前估计为全球20亿人感染，估计有10亿人感染鞭虫。蠕虫感染可导致严重的营养不良、生长迟缓和长期残疾。此外，流行地区牲畜的感染给当地社区造成巨大的经济负担。考虑到蠕虫感染的全球流行以及工业化国家过敏性疾病的流行，更好地了解控制TH 2烟碱介导的免疫和炎症的途径至关重要。CD 4 + TH 2细胞产生IL-4、IL-5、IL-9和IL-13，它们的发育依赖于IL-4 R、STAT 6和GATA 3。此外，在TH 2细胞因子应答的背景下活化的B细胞主要进行类别转换以产生抗原特异性IgG 1和IgE。组织中的2型尼古丁驱动的炎症导致杯状细胞增生、粘液产生、平滑肌收缩性增加和粒细胞群的流入。尽管我们对控制TH 2细胞分化和调节的途径的理解有了重大进展，但启动蠕虫或过敏原特异性TH 2细胞应答的分子和细胞途径仍然定义不清。我以前的工作表明，TSLP促进人口扩增的表型和功能不同，IL-3非依赖性嗜碱性粒细胞的人口和TSLP引起的嗜碱性粒细胞足以部分恢复CD 4 + TH 2细胞反应和保护性免疫鞭虫在正常敏感的TSLPR缺陷小鼠。此外，我的新的初步研究表明，第一次，TSLP引起的嗜碱性粒细胞与DC合作，以促进CD 4 + TH 2细胞的反应，TSLP引起的嗜碱性粒细胞可以直接改变DC群体的活化状态。总的来说，这些数据激发了这样的假设，即TSLP诱导的嗜碱性粒细胞通过影响DC群体的活化状态来促进TH 2烟碱介导的炎症和对鞭虫的保护性免疫。根据我的新数据，两个具体的目标将解决以下问题：（i）TSLP诱导的嗜碱性粒细胞是否促进对鞭虫的保护性免疫？(ii)TSLP诱导的嗜碱性粒细胞是否以促进TH 2细胞因子应答和对鞭虫的保护性免疫的方式调节DC群体？总的来说，这些研究将询问TSLP通过其促进对鞭虫的保护性免疫的先天免疫机制。我预期，明确TSLP和嗜碱性粒细胞促进保护性免疫机制将指导未来防治土壤传播蠕虫感染临床工作。

项目成果

The Therapeutic Potential of Targeting Cytokine Alarmins to Treat Allergic Airway Inflammation.

• DOI: 10.3389/fphys.2016.00214
• 发表时间: 2016
• 期刊: Frontiers in physiology
• 影响因子: 4
• 作者: Sy CB;Siracusa MC
• 通讯作者: Siracusa MC