ABSTRACT
Babesia bovis and Theileria annulata are tick-borne hemoprotozoans that impact bovine health and are responsible for considerable fatalities in tropical and subtropical regions around the world. Both pathogens infect the same vertebrate host, are closely related, and contain similar-sized genomes; however, they differ in invertebrate host specificity, absence vs. presence of a schizont stage, erythrocyte invasion mechanism, and transovarial vs. transstadial transmission. Phylogenetic analysis and bidirectional best hit (BBH) identified a similar number of aspartic, metallo, and threonine proteinases and nonproteinase homologs. In contrast, a considerably increased number of S54 serine rhomboid proteinases and S9 nonproteinase homologs were identified in B. bovis, whereas C1A cysteine proteinases and A1 aspartic nonproteinase homologs were found to be expanded in T. annulata. Furthermore, a single proteinase of families S8 (subtilisin-like protein) and C12 (ubiquitin carboxyl-terminal hydrolase), as well as four nonproteinase homologs, one with dual domains M23-M23 and three with S9-S9, were exclusively present in B. bovis. Finally, a pronounced difference in species-specific ancillary domains was observed between both species. We hypothesize that the observed degradome differences represent functional correlates of the dissimilar life history features of B. bovis and T. annulata. The presented improved classification of piroplasmid proteinases will facilitate an informed choice for future in-depth functional studies.
ABSTRACT
Heart failure and sudden death are the most common causes of death in patients with Chagas' disease. The main drug available for Chagas treatment is benznidazole, which eradicates Trypanosoma cruzi parasites during the acute stage of infection. However, its effectiveness during the chronic phase remains unclear. Ganglioside GM1 administration in chronically infected patients resulted to be an effective treatment for the cardiac manifestations of Chagas' disease. However, the precise mechanisms of GM1-induced improvement during chronic T. cruzi infection still remain unknown. The aim of the present study was to evaluate the potential benefits of ganglioside GM1 treatment during the chronic stage of murine chagasic infection, analyzing its influence on myocardial pathology as well as its immunomodulatory effects. The results obtained showed that GM1 therapy diminished the extent of myocardial fibrosis induced by T. cruzi in chronically infected mice. In addition, GM1 treatment resulted in a significant reduction in the myocardial expression of the fibrogenic cytokine TGF-ß as well as the proinflammatory cytokines and chemokines IFN-γ, TNF-α and CCL5/RANTES. Our experimental data indicate that GM1 could be a promising immunomodulatory agent with capacity to limit the inflammatory process leading to myocardial tissue damage in chronic chagasic patients.
