Effects of symbiotic status on cellular immunity dynamics in Sitophilus oryzae.

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.