Host-parasite interaction as a model to define immunological regulatory pathways.

宿主-寄生虫相互作用作为定义免疫调节途径的模型。

• 批准号: 341924-2012
• 负责人: McKay, Derek
• 金额: $ 2.91万
• 依托单位: University of Calgary
• 依托单位国家: 加拿大
• 项目类别: Discovery Grants Program - Individual
• 财政年份: 2016
• 资助国家: 加拿大
• 起止时间: 2016-01-01 至 2017-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=595529
• 关键词: Host; parasite; interaction; model; define

There is often the misconception that parasitic diseases are restricted to tropical regions of the world. This is far from the truth. The effects of parasitism are felt in Canada, where livestock, companion animals and humans can suffer from parasitic infections at the cost of millions of dollars annually. In this project we make use of a convenient laboratory model system - that of mice infected with the rat tapeworm, Hymenolepis diminuta - to ask a series of basic questions that address fundamental issues relating to the immune response directed at helminth (i.e. worm) parasites and how this knowledge can be used to both combat infection with helminth parasites, modualte mucosal immunity and affect co-morbidities. Three strands of investigation are woven into a unified research plan that assesses the two principal means by which helminth parasites can affect host immunity. First, a series of immunological studies will define the early (i.e. 1-5 days) changes in immune cell populations in mice that accompany infection with H. diminuta and then determine which of these drive the adaptive immune response responsible for expulsion of the worm. Second, focusing, on one immune signal, namely interleukin (IL)-10, we will determine the role for this molecule in (i) rejection of the parasite, (ii) recovery of the immune system after the mobilization of a spectrum of anti-worm events, and (iii) the ability to exert a bystander effect and suppress disease-related inflammation in the gut or joints. Third, a molecular analysis will seek to isolate and characterize bio-active molecules from the worm that may serve as blueprints for the development of novel immuno-suppressive drugs. As an integrated program, this study will provide fundamental data on immunological aspects of host-parasite (i.e. helminth) interactions that can be applied to the development of better anti-worm treatments and the development of strategies to manipulate the mammalian immune response.

人们常常误以为寄生虫病仅限于世界热带地区。这与事实相差甚远。加拿大感受到了寄生虫的影响，那里的牲畜、同伴动物和人类可能会受到寄生虫感染，每年的损失高达数百万美元。在这个项目中，我们利用一个方便的实验室模型系统--被老鼠绦虫感染的小鼠的模型系统--提出一系列基本问题，解决与针对蠕虫(即蠕虫)寄生虫的免疫反应有关的基本问题，以及如何将这些知识用于对抗蠕虫寄生虫的感染、调节粘膜免疫和影响共病。三个方面的调查编织成一个统一的研究计划，评估蠕虫寄生虫影响宿主免疫的两种主要手段。首先，一系列免疫学研究将确定伴随着微小螺旋体感染的小鼠免疫细胞群体的早期(即1-5天)变化，然后确定这些变化中的哪一个驱动负责驱逐蠕虫的获得性免疫反应。第二，聚焦于一种免疫信号，即白介素10，我们将确定这种分子在(I)排斥寄生虫，(Ii)动员一系列抗蠕虫事件后免疫系统的恢复，以及(Iii)发挥旁观者效应和抑制肠道或关节中与疾病相关的炎症的能力。第三，分子分析将寻求从蠕虫中分离和表征生物活性分子，这可能是开发新型免疫抑制药物的蓝图。作为一个综合计划，这项研究将提供宿主-寄生虫(即蠕虫)相互作用的免疫学方面的基本数据，可用于开发更好的抗蠕虫治疗方法和开发操纵哺乳动物免疫反应的策略。