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A FAT BODY TRANSCRIPTOME ANALYSIS OF THE IMMUNE RESPONSES OF RHODNIUS PROLIXUS TO ARTIFICIAL INFECTIONS WITH BACTÉRIA
Innate immunity
Serine protease inhibitors
Serine proteases
Toll pathway
Transcriptome
Triatomines
Author
Affilliation
Centre for Cell Biology. Development and Disease. Department of Biological Sciences. Simon Fraser University. Burnaby, BC, Canada.
Instituto de Bioquímica Médica Leopoldo de Meis. Universidade Federal do Rio de Janeiro. Ilha do Fundão, RJ, Brazil.
Vector Behavior and Pathogen Interaction Group. René Rachou Institute. Oswaldo Cruz Foundation. Belo Horizonte, MG, Brazil.
Centre for Cell Biology, Development and Disease. Department of Biological Sciences. Simon Fraser University. Burnaby, BC, Canada.
Instituto de Bioquímica Médica Leopoldo de Meis. Universidade Federal do Rio de Janeiro. Ilha do Fundão, RJ, Brazil.
Vector Behavior and Pathogen Interaction Group. René Rachou Institute. Oswaldo Cruz Foundation. Belo Horizonte, MG, Brazil.
Centre for Cell Biology, Development and Disease. Department of Biological Sciences. Simon Fraser University. Burnaby, BC, Canada.
Abstract
Background: Rhodnius prolixus is an important vector of Trypanosoma cruzi, the causal agent of Chagas disease in humans. Despite the medical importance of this and other triatomine vectors, the study of their immune responses has been limited to a few molecular pathways and processes. Insect immunity studies were first described for holometabolous insects such as Drosophila melanogaster, and it was assumed that their immune responses were conserved in all insects. However, study of the immune responses of triatomines and other hemimetabolous insects has revealed discrepancies between these and the Drosophila model.
Methods: To expand our understanding of innate immune responses of triatomines to pathogens, we injected fifth instar nymphs of R. prolixus with the Gram-negative (Gr-) bacterium Enterobacter cloacae, the Gram-positive (Gr+) bacterium Staphylococcus aureus, or phosphate-buffered saline (PBS), and evaluated transcript expression in the fat body 8 and 24 h post-injection (hpi). We analyzed the differential expression of transcripts at each time point, and across time, for each treatment.
Results: At 8 hpi, the Gr- bacteria-injected group had a large number of differentially expressed (DE) transcripts, and most of the changes in transcript expression were maintained at 24 hpi. In the Gr+ bacteria treatment, few DE transcripts were detected at 8 hpi, but a large number of transcripts were DE at 24 hpi. Unexpectedly, the PBS control also had a large number of DE transcripts at 24 hpi. Very few DE transcripts were common to the different treatments and time points, indicating a high specificity of the immune responses of R. prolixus to different pathogens. Antimicrobial peptides known to be induced by the immune deficiency pathway were induced upon Gr- bacterial infection. Many transcripts of genes from the Toll pathway that are thought to participate in responses to Gr+ bacteria and fungi were induced by both bacteria and PBS treatment. Pathogen recognition receptors and serine protease cascade transcripts were also overexpressed after Gr- bacteria and PBS injections. Gr- injection also upregulated transcripts involved in the metabolism of tyrosine, a major substrate involved in the melanotic encapsulation response to pathogens.
Conclusions: These results reveal time-dependent pathogen-specific regulation of immune responses in triatomines, and hint at strong interactions between the immune deficiency and Toll pathways.
Keywords
Immune deficiency pathwayInnate immunity
Serine protease inhibitors
Serine proteases
Toll pathway
Transcriptome
Triatomines
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