Does Spiroplasma protect against trypanosome infection in Drosophila?

螺原体是否能保护果蝇免受锥虫感染？

• 批准号: NE/V009834/1
• 负责人: Gregory Hurst
• 金额: $ 1.42万
• 依托单位: University of Liverpool
• 依托单位国家: 英国
• 项目类别: Research Grant
• 财政年份: 2021
• 资助国家: 英国
• 起止时间: 2021 至 无数据
• 项目状态: 已结题
• 来源: https://gtr.ukri.org/projects?ref=NE%2FV009834%2F1
• 关键词: Does; Spiroplasma; protect; against; trypanosome

NERC : Jordan Jones : NE/L002450/1Over 50% of all insect species carry bacteria that are passed from mother to offspring. These bacteria rely on their host for survival and transmission, and in many cases have evolved to benefit their insect hosts. One particular beneficial bacterial-mediated trait which is being found to be increasingly common among insects is protection against natural enemies. For instance, the maternally inherited bacteria of fruit flies, Spiroplasma, can protect its host against attack by parasitic nematodes and wasps. Bacterial-mediated protective traits have important potential applications. Maternally inherited bacteria are now being deployed in mosquitoes to help control the spread of vector transmitted diseases such as Dengue and Zika. They may also determine the success of biocontrol by enemies. Hence, it is of great importance to determine the ability of maternally inherited bacteria to protect against novel parasites, particularly those of societal importance. As the causal agent of several human and animal diseases such as African sleeping sickness, the trypanosomatids represent parasites of great medical and economic importance to society. Recent evidence has indicated that bacteria such as Spiroplasma, may be able to protect against trypanosomatid infection in Tsetse flies. However, although this evidence is encouraging, we do not currently have the molecular tools to fully understand this association in great depth. The fruit fly is commonly infected with trypanosomatid parasites and is one of the best model systems for determining the evolutionary ecology of immunity and protection. This project will determine whether the natural bacteria of fruit flies, Spiroplasma, can protect fruit flies against trypanosomatid infection. This project aims to further our knowledge on the generality of Spiroplasma-mediated defence within insects and more widely, a greater understanding of a relatively novel and underappreciated model system within the laboratory. We aim to develop the Drosophila-Spiroplasma-trypanosome interaction as one that is ideal for laboratory study.

NERC: Jordan Jones: NE/ l002450 /1超过50%的昆虫携带的细菌是通过母体传给后代的。这些细菌依靠它们的宿主生存和传播，并且在许多情况下已经进化到有利于它们的昆虫宿主。一种特别有益的细菌介导的特性被发现在昆虫中越来越普遍，那就是对天敌的保护。例如，果蝇的母系遗传细菌螺原体可以保护宿主免受寄生线虫和黄蜂的攻击。细菌介导的保护特性具有重要的潜在应用。母系遗传的细菌现在被部署在蚊子体内，以帮助控制登革热和寨卡等病媒传播疾病的传播。它们也可能决定敌人生物防治的成功。因此，确定母系遗传细菌抵御新型寄生虫的能力，特别是那些具有社会重要性的寄生虫的能力是非常重要的。作为非洲昏睡病等几种人类和动物疾病的致病因子，锥虫虫代表了对社会具有重大医学和经济意义的寄生虫。最近的证据表明，螺旋体等细菌可能能够保护采采蝇免受锥虫病的感染。然而，尽管这一证据令人鼓舞，但我们目前还没有分子工具来全面深入地了解这种关联。果蝇通常感染锥虫寄生虫，是确定免疫和保护进化生态学的最佳模型系统之一。该项目将确定果蝇的天然细菌螺旋体是否可以保护果蝇免受锥虫病的感染。该项目旨在进一步了解昆虫体内螺旋体介导的防御的普遍性，并更广泛地了解实验室中相对新颖且未被充分认识的模型系统。我们的目标是发展果蝇-螺旋体-锥虫相互作用，作为一个理想的实验室研究。