Cellular Immune Response of Protaetia brevitarsis seulensis Larvae to Metabolites Produced by Pathogenic and Symbiotic Bacteria

Dooseon Hwang, Saeyoull Cho
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Abstract

Studies of immune responses in insects have focused on mechanisms that interact directly with invading microorganisms. However, few studies have examined the immune response to various metabolites produced by microorganisms after they enter the host. Here, we examined immune responses in Protaetia brevitarsis seulensis larvae induced by metabolites produced by symbiotic and pathogenic bacteria. The two types of bacteria were cultured under the same conditions. The bacteria were then removed and the remaining culture supernatant was injected into the larvae. The larvae injected with culture medium (Ch-medium) from symbiotic bacteria remained relatively healthy and did not develop an immune response, whereas more than 60% of the larvae injected with pathogen culture medium (Ec-medium) died after 150 hours and dark brown patches of melanin were observed at the injection site. This immune response was confirmed by the finding of activated lysosomes in insect granulocytes. More than 50% of lysosomes in larvae injected with pathogen culture medium were strongly stained after 12 h, but less than 5% of those injected with symbiotic culture media were stained. Therefore, it is assumed that symbiotic bacteria produce few (if any) substances that induce host immune responses.
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短视原蜂幼虫对病原菌和共生菌代谢物的细胞免疫反应
对昆虫免疫反应的研究主要集中在与入侵微生物直接相互作用的机制上。然而,很少有研究检测微生物进入宿主后产生的各种代谢物的免疫反应。在这里,我们研究了共生细菌和致病菌产生的代谢物诱导的短命原蝇幼虫的免疫反应。两种细菌在相同的条件下培养。然后去除细菌,将剩余的培养上清液注射到幼虫体内。注射共生菌培养基(ch培养基)的幼虫保持相对健康,未产生免疫应答,而注射病原体培养基(ec培养基)的幼虫在150小时后死亡的比例超过60%,注射部位出现深褐色的黑色素斑块。在昆虫粒细胞中发现了活化的溶酶体,证实了这种免疫反应。注射病原体培养基的幼虫12 h后,50%以上的溶酶体被强烈染色,而注射共生培养基的幼虫则不到5%。因此,假设共生细菌产生很少(如果有的话)诱导宿主免疫反应的物质。
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