A Deep Insight into the Sialome of Rhodnius neglectus, a Vector of Chagas Disease.

BACKGROUND: Triatomines are hematophagous insects that act as vectors of Chagas disease. Rhodnius neglectus is one of these kissing bugs found, contributing to the transmission of this American trypanosomiasis. The saliva of hematophagous arthropods contains bioactive molecules responsible for counteracting host haemostatic, inflammatory, and immune responses. METHODS/PRINCIPAL FINDINGS: Next generation sequencing and mass spectrometry-based protein identification were performed to investigate the content of triatomine R. neglectus saliva. We deposited 4,230 coding DNA sequences (CDS) in GenBank. A set of 636 CDS of proteins of putative secretory nature was extracted from the assembled reads, 73 of them confirmed by proteomic analysis. The sialome of R. neglectus was characterized and serine protease transcripts detected. The presence of ubiquitous protein families was revealed, including lipocalins, serine protease inhibitors, and antigen-5. Metalloproteases, disintegrins, and odorant binding protein families were less abundant. CONCLUSIONS/SIGNIFICANCE: The data presented improve our understanding of hematophagous arthropod sialomes, and aid in understanding hematophagy and the complex interplay among vectors and their vertebrate hosts.

Comparative Two-Dimensional Gel Electrophoresis of Trypanosoma cruzi Mammalian-Stage Forms in an Alkaline pH Range.

It is estimated that several million people are currently infected worldwide by the protozoan parasite, Trypanosoma cruzi, which causes Chagas disease. After mammalian host infection, a fundamental event is the differentiation from infective trypomastigotes into replicative amastigotes (amastigogenesis) inside host-cells. To unravel the particularities of both forms, it is essential to identify molecules presented in each form. Since T. cruzi gene expression regulation occurs mainly at posttranscriptional level, a proteomic approach is appropriate. Due to intrinsic difficulties with performing 2-DE in the alkaline pH range, there are no reports on 2-DE-based comparative proteome analysis of T. cruzi mammalianstage forms that focus on alkaline polypeptides. Here, we performed a comparative proteome analysis between tissue culture- derived trypomastigotes and extracellular amastigote-like cells using conditions optimized for the 6-11 pH range followed by identification by MALDI-TOF/TOF technology. The alkaline 2-DE maps from both forms show that proteins with a pI above 7.0 were not underrepresented (= 65% of proteins detected). Moreover the differences in protein expression between the Human-hosted T. cruzi forms corroborated previous proteomic studies and corresponded to their biological traits.