Conclusion Our study represents the first Selleck Erastin transcriptomics approach that aims at deciphering the A. vulgare-Wolbachia interactions and it established the first reference transcriptome for isopods. In A. vulgare, Wolbachia colonize not only the ovaries but
also other tissues, particularly the immune cells [65, 84]. Therefore, perturbation of the host immune gene expression could be a direct effect of the bacteria on immunity. In such a scenario, Wolbachia would not be a silent bacterium and could counteract the host immune system to survive and establish a long term association with the host. The quantification of immune-related gene expression revealed a global trend to gene under-expression in Wolbachia-infected whole animals and ovaries. Unexpected modulation of immune gene expression in ovaries could reflect a Wolbachia strategy to manipulate the crucial tissue for vertical transmission. Surprisingly, most of the immune genes (30/37) tend to be up-regulated Panobinostat in immune tissues. This general up-regulation could compensate the immune depressive effect of Wolbachia previously described in A. vulgare [10, 11, 65]. These results conflict
with those observed in insect cell lines where Wolbachia down-regulated immune-related genes [66, 85] but are congruent with those obtained in transfected wMelpop mosquitoes [17–19]. More work needs to be done to check whether this up-regulation confers host pathogen protection as observed in Drosophila BCKDHA and mosquitoes [14, 15, 17, 19]. Acknowledgements and funding
We thank Catherine Debenest, Carine Delaunay, Jerôme Lesobre and Maryline Raimond for technical assistance and Renaud Fortuner for improving the English. A. vulgare sequences were obtained in the frame of the program “Functional Genomics and Immune Signaling in Invertebrate Endosymbiosis” in collaboration with the Centre National de Séquençage, Genoscope (Evry, France). This research was funded by the CNRS UMR 6556, the Université de Poitiers and the Agence Nationale de la Recherche (“EndoSymbArt” ANR-06-BLAN-0316 and “ImmunSymbArt” ANR-2010-BLAN-170101, both coordinated by DB). This article has been published as part of BMC Microbiology Volume 11 Supplement 1, 2012: Arthropod symbioses: from fundamental studies to pest and disease mangement. The full contents of the supplement are available online at http://www.biomedcentral.com/1471-2180/12?issue=S1. Electronic supplementary material Additional file 1: Primer pairs used for RT-qPCR quantification. (PDF 24 KB) Additional file 2: Unigenes differentially represented between symbiotic and asymbiotic ovaries. (PDF 35 KB) Additional file 3: Processes and functions over-represented in A. vulgare ovaries in response to Wolbachia infection, biological process levels 4 and 6. (PDF 48 KB) Additional file 4: Immune unigenes present in SO, AO, SSH-S, SSH-A, SSH-C, and SSH-NC libraries.