López-Madrigal Sergio, Maire Justin, Balmand Séverine, Zaidman-Rémy Anna, Heddi Abdelaziz
Univ Lyon, INSA-Lyon, INRA, BF2I, UMR0203, F-69621, Villeurbanne, France.
Dev Comp Immunol. 2017 Dec;77:259-269. doi: 10.1016/j.dci.2017.08.003. Epub 2017 Aug 10.
Many insects maintain intracellular symbiosis with mutualistic bacteria that improve their adaptive capabilities in nutritionally poor habitats. Adaptation of insect immune systems to such associations has been shown in several symbiotic consortia, including that of the rice weevil Sitophilus oryzae with the gammaproteobacterium Sodalis pierantonius. Although authors have mostly focused on the role of humoral immunity in host-symbiont interactions, recent studies suggest that symbiotic bacteria may also interfere with the cellular, hemocyte-based, immunity. Here, we have explored hemocyte dynamics in S. oryzae in the presence or absence of S. pierantonius, and in response to bacterial challenges. We have identified five morphotypes within larval hemocytes, whose abundance and morphometry drastically change along insect development. We show that hemocytes make part of the weevil immune system by responding to pathogenic infections. In contrast with previous results on other insect species, however, our analyses did not reveal any symbiotic-dependent modulation of the hemocyte global population.
许多昆虫与互利共生细菌保持细胞内共生关系,这些细菌可提高它们在营养贫瘠栖息地的适应能力。在几个共生组合中已显示昆虫免疫系统对这种共生关系的适应性,包括米象(Sitophilus oryzae)与γ-变形菌Sodalis pierantonius的共生组合。尽管作者大多关注体液免疫在宿主-共生体相互作用中的作用,但最近的研究表明共生细菌也可能干扰基于血细胞的细胞免疫。在这里,我们研究了有无S. pierantonius时米象血细胞的动态变化,以及对细菌攻击的反应。我们在幼虫血细胞中鉴定出五种形态类型,其丰度和形态测量值会随着昆虫发育而急剧变化。我们表明血细胞通过对病原体感染做出反应而成为象鼻虫免疫系统的一部分。然而,与先前关于其他昆虫物种的结果相反,我们的分析未发现血细胞总体数量有任何共生依赖性调节。
