Here we have studied phospholipase A1 (Plase A1) from Trypanosoma cruzi infective stages and it's possible role regarding the interaction with mammalian host cells. Plase A1 was mainly detected as a membrane-bound activity in the infective amastigote and trypomastigote stages, being remarkably higher with respect to the non-infective epimastigotes. It is noteworthy that only the infective stages secreted Plase A1. Moreover, along the differentiation process from epimastigotes into metacyclic trypomastigotes, the secreted enzyme activity increased simultaneously with the appearance of metacyclic forms, as expected. Since this enzyme is predominantly membrane-associated and secreted by the infective stages, Vero cell lipid profile modifications were analysed after interaction with either intact infective parasites or purified T. cruzi Plase A1. Significant changes in Vero cell lipid composition were observed, with the appearance of free fatty acids, diacylglycerol and lysophosphatidylcholine. Concomitantly with the generation of second lipid messengers, host cell protein kinase C activation was demonstrated. These results indicate that T. cruzi Plase A1 could play a critical role in the early events of parasite-host cell interaction that precede invasion.
Previously, we showed that oleic acid (OA) induces Trypanosoma cruzi metacyclogenesis through a signaling pathway involving de novo diacylglycerol biosynthesis and simultaneous protein kinase C (PKC) activation. Herein, we demonstrated that OA also triggers a transient Ca(2+) signal in epimastigotes, necessary for parasite differentiation, that could account for PKC activation. In addition, we found that this free fatty acid (FFA) directly stimulated in vitro the activity of T. cruzi PKC in a dose-response way. We determined the presence of classical and novel PKC isoenzymes that were differentially expressed in the infective amastigotes (alpha and delta) and tripomastigotes (alpha, beta, and gamma) and in the non-infective epimastigotes (alpha, beta, gamma, and delta). We also demonstrated that OA induced in epimastigotes the translocation of PKC alpha, beta, gamma, and delta to the membrane, indicating a selective effect of this FFA. To establish a correlation between T. cruzi metacyclogenesis induced by OA and the activation of a particular PKC isoenzyme, the specific PKC inhibitors Ro 32-0432 and Rottlerin (9-30 nM and 5-35 microM, respectively) were employed. These compounds, even at the lowest concentrations assayed, abrogated both epimastigote differentiation and membrane translocation of PKC beta, gamma, and delta. These findings strongly support a key role for classical and novel PKC isoenzymes in the signaling pathways involved in T. cruzi metacyclogenesis induced by OA.
Lipids from microorganisms are ligands of Toll like receptors (TLRs) and modulate the innate immune response. Herein, we analyze in vitro the effect of total lipid extracts from Trypanosoma cruzi amastigotes of RA and K98 strains (with polar biological behavior) on the induction of the inflammatory response and the involvement of TLRs in this process. We demonstrated that total lipid extracts from both strains induced lipid body formation, cyclooxygenase-2 expression and TNF-α and nitric oxide release in macrophages, as well as NF-κB activation and IL-8 release in HEK cells specifically through a TLR2/6 dependent pathway. We also evaluated the inflammatory response induced by total lipid extracts obtained from lysed parasites that were overnight incubated to allow the action of parasite hydrolytic enzymes, such as Phospholipase A1, over endogenous phospholipids. After incubation, these total lipid extracts showed a significantly reduced pro-inflammatory response, which could be attributed to the changes in the content of known bioactive lipid molecules like lysophospholipids and fatty acids, here reported. Moreover, analyses of total fatty acids in each lipid extract were performed by gas chromatography-mass spectrometry. Our results indicate a relevant role of T. cruzi lipids in the induction of a pro-inflammatory response through the TLR2/6 pathway that could contribute to the modulation of the immune response and host survival.
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