Cellular dynamics of host-parasitoid interactions: Insights from the encapsulation process in a partially resistant host

Samuel GornardEGCE, Florence Mougel, Isabelle Germon, Véronique Borday-Birraux, Pascaline Venon, Salimata Drabo, Laure Marie-Paule Kaiser-Arnauld
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Abstract

Cotesia typhae is an eastern African endoparasitoid braconid wasp that targets the larval stage of the lepidopteran stem borer, Sesamia nonagrioides, a maize crop pest in Europe. The French host population is partially resistant to the Makindu strain of the wasp, allowing its development in only 40% of the cases. Resistant larvae can encapsulate the parasitoid and survive the infection. This interaction provides a very interesting frame for investigating the impact of parasitism on host cellular resistance. We characterized the parasitoid ovolarval development in a permissive host and studied the encapsulation process in a resistant host by dissection and histological sectioning compared to that of inert chromatography beads. We measured the total hemocyte count in parasitized and bead-injected larvae over time to monitor the magnitude of the immune reaction. Our results show that parasitism of resistant hosts delayed encapsulation but did not affect immune abilities towards inert beads. Moreover, while bead injection increased total hemocyte count, it remained constant in resistant and permissive larvae. We conclude that while Cotesia spp virulence factors are known to impair the host immune system, our results suggest that passive evasion could also occur.
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寄主与寄生虫相互作用的细胞动力学:从部分抗性寄主的封装过程中获得的启示
Cotesia typhae 是一种东非内寄生性喙蜂,以鳞翅目螟虫 Sesamia nonagrioides 的幼虫期为目标,是欧洲的一种玉米作物害虫。法国的寄主种群对该蜂的马金杜(Makindu)品系具有部分抗性,仅有 40% 的病例允许其发展。抗性幼虫可以包裹寄生蜂并在感染后存活下来。这种相互作用为研究寄生虫对宿主细胞抵抗力的影响提供了一个非常有趣的框架。我们描述了寄生虫在允许寄生的宿主体内卵巢发育的特点,并通过解剖和组织学切片研究了寄生虫在抗性宿主体内的包裹过程,并与惰性层析珠的包裹过程进行了比较。我们测量了寄生幼虫和注射珠子幼虫的血细胞总数,以监测免疫反应的程度。我们的结果表明,寄生于抗性宿主的幼虫会延迟封装,但不会影响对惰性色谱珠的免疫能力。此外,虽然珠子注射会增加总血细胞数,但在抗性幼虫和允许幼虫中,总血细胞数保持不变。我们的结论是,虽然已知 Cotesia spp 的致病因子会损害宿主的免疫系统,但我们的结果表明被动规避也可能发生。
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