A striking result of this current study was that symbiotic larvae presented a lower immune response to bacterial challenge, when compared to aposymbiotic larvae. Invertebrate immune reactions toward pathogens, and the possible evolutionary impact of endosymbiosis
on shaping these reactions, have been the major focus of research in the past few years [69, 73, 77, 79–81]. The recent genome sequencing of the pea aphid, which shares a long-term symbiotic relationship with the endosymbiont click here Buchnera, has surprisingly revealed that aphids lack crucial components of the IMD pathway [73]. XMU-MP-1 cost Furthermore, no apparent AMP was determined by gene annotation [73, 91]. In the same context, Braquart-Varnier et al. [77] have shown that the cellular immune response could be affected by endosymbionts. Isopods harboring Wolbachia (wVulC) exhibited lower haemocyte density and more intense septicaemia in the haemolymph. In the ant, learn more Camponotus fellah, insect treatment with the Rifampin antibiotic resulted in a drastic decrease in the number of symbiotic bacteria, and this
decrease was associated with a higher encapsulation rate when compared with the non-treated insect control [92]. Diminished encapsulation ability in parasitoid Leptopilina eggs has also been reported, in the presence of Wolbachia, in D. simulans [93]. Taken together, these findings lead to the hypotheses that either invertebrate symbiosis may have selected for a simplification of the host immune system or endosymbionts manage to modulate
the host immune expression, presumably for their own survival. A third hypothesis is that invertebrates might allocate different resources to immune pathways. In this case, the relatively low systemic response in weevil symbiotic larvae could be due to the allocation of insect resources to local expression of the bacteriome, to the detriment of the humoral systemic expression. However, although these hypotheses appear to be compatible with our preliminary results on Sitophilus, additional work needs to be done to determine whether decreases in AMP gene expression in symbiotic insects are GBA3 due to endosymbiont manipulation or whether heat-treatment while obtaining apsoymbiotic insects has resulted in a genetic selection of host immunocompetence. Moreover, it is notable that the endosymbiosis interaction with the invertebrate immune system is an emerging field that provides quite contrasting data. Contrary to previous findings, several studies investigating Wolbachia as a potential control agent in vector insect species have reported that Wolbachia can activate the host immune system, and protect the insect against a wide variety of pathogens [79–82]. However, as only a few Wolbachia strains have been tested so far (i.e.