Vitellogenin in inflammation and immunity in social insects

Heli Salmela, L. Sundström
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引用次数: 27

Abstract

Social insects, such as the honey bee and ants, form vast colonies that are only rivalled by human settlements. Living in dense, often stationary groups is prone to increase disease transmission. Yet, social insect queens and certain worker types can lead lengthy lives compared to the life span of most solitary insects. Social insects appear to have modified insulin/insulin like signaling pathway that regulates insect life history. This modification results in extremely elevated levels of the multifunctional lipoprotein vitellogenin in the individuals with longer life span. Vitellogenin is an egg-yolk precursor, but it also regulates caste-related behaviors in social insects, has shielding effects in inflammation and infection, and it is a mediator of transgenerational immunity. Here, we compile what is known about the life span and immune actions of vitellogenin and the evolution of this protein in the honey bee and ants. Recently we identified proteins homologous to vitellogenin in several Hymenopteran species, and showed that at least one of these vitellogenin-like proteins can have a protective role similar to vitellogenin in the honey bee. The newly identified vitellogenin homologs hint that the regulation of social insect life span can be more complex than thought before.
群居昆虫炎症和免疫中的卵黄原蛋白
群居昆虫,如蜜蜂和蚂蚁,形成了只有人类才能与之匹敌的庞大群体。生活在人口密集、往往静止不动的群体中,容易增加疾病传播。然而,与大多数独居昆虫的寿命相比,群居昆虫女王和某些工蜂类型的寿命更长。群居昆虫似乎改变了调节昆虫生活史的胰岛素/胰岛素样信号通路。这种修饰导致长寿个体的多功能脂蛋白卵黄原蛋白水平极高。卵黄原蛋白是一种卵黄前体,但它也调节社会性昆虫的种姓相关行为,在炎症和感染中具有屏蔽作用,并且是跨代免疫的中介。在这里,我们汇编了关于卵黄蛋白原的寿命和免疫作用以及该蛋白在蜜蜂和蚂蚁中的进化的已知信息。最近,我们在几种膜翅目昆虫中发现了与卵黄蛋白原同源的蛋白,并表明至少有一种卵黄蛋白原样蛋白在蜜蜂中具有类似于卵黄蛋白原的保护作用。新发现的卵黄蛋白同源物暗示,群居昆虫寿命的调节可能比以前认为的要复杂得多。
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