Leishmania mexicana: promastigotes and amastigotes secrete protein phosphatases and this correlates with the production of inflammatory cytokines in macrophages.

Phosphatase activity of Leishmania spp. has been shown to deregulate the signalling pathways of the host cell. We here show that Leishmania mexicana promastigotes and amastigotes secrete proteins with phosphatase activity to the culture medium, which was higher in the Promastigote Secretion Medium (PSM) as compared with the Amastigote Secretion Medium (ASM) and was not due to cell lysis, since parasite viability was not affected by the secretion process. The biochemical characterization showed that the phosphatase activity present in PSM was higher in dephosphorylating the peptide END (pY) INASL as compared with the peptide RRA (pT)VA. In contrast, the phosphatase activity in ASM showed little dephosphorylating capacity for both peptides. Inhibition assays demonstrated that the phosphatase activity of both PSM and ASM was sensible only to protein tyrosine phosphatases inhibitors. An antibody against a protein phosphatase 2C (PP2C) of Leishmania major cross-reacted with a 44·9 kDa molecule in different cellular fractions of L. mexicana promastigotes and amastigotes, however, in PSM and ASM, the antibody recognized a protein about 70 kDa. By electron microscopy, the PP2C was localized in the flagellar pocket of amastigotes. PSM and ASM induced the production of tumor necrosis factor alpha, IL-1ß, IL-12p70 and IL-10 in human macrophages.

Cellular Identification and In Silico Characterization of Protein Phosphatase 2C (PP2C) of Cryptosporidium parvum.

PURPOSE: Cryptosporidium parvum is an Apicomplexa parasite that causes watery diarrhea (cryptosporidiosis), especially in children and immunocompromised adults (the latter in a very severe form). No effective treatment exists against infection by this parasite. Phosphatases participate in the regulation of various cellular functions and are thus considered potential therapeutic targets in many diseases. The aim of the present study was to indirectly identify and in silico characterize a protein phosphatase 2C of C. parvum. METHODS: Western blot and indirect immunofluorescence microscopy were performed with a polyclonal antibody against Leishmania major PP2C. Possible cross-reactivity with LmPP2C was assessed by in silico sequence homology to analyze phylogenetic relationships between distinct C. parvum PP2Cs. In addition, another bioinformatics approach was used to predict the possible relationship and function of C. parvum PP2C in the regulation of several cellular processes. RESULTS: Western blotting showed a protein of approximately 72 kDa. With immunofluorescence, PP2C was localized in the nucleus of oocysts (with some additional labeling in the cytoplasm) and at the apical region of sporozoites. By aligning C. parvum PP2C with known ortholog sequences and carrying out PPI analysis, a determination could be made of the degree of conservation of these enzymes, their possible relationship, and their function in the regulation of several cellular processes associated with a likely nuclear location. CONCLUSION: Microscopic localization by immunofluorescence identified CpPP2C at the nucleus in oocysts and at the apical end of the sporozoite body. Hence, this enzyme could be associated with proteins that have an important role in the regulation of transcription and other processes orchestrated by MAPK kinases, according to in silico analysis.

Leishmania major : detection of membrane-bound protein tyrosine phosphatase.

PTPases have been reported as a virulence factor in different pathogens. Recent studies suggest that PTPases play a role in the pathogenesis of Leishmania infections through activation of macrophage PTPases by the parasite. We report here the presence of a membrane-bound PTPase in Leishmania major promastigotes. We detected differences in the PTPases present in the procyclic and metacyclic stages of promastigotes. In metacyclic promastigotes, the PTPase activity was totally inhibited by specific PTPase and serine/threonine inhibitors, whereas in procyclic promastigotes the PTPase activity was inhibited only with PTPase inhibitors. Two antibodies against the catalytic domains of the human placental PTPase1B and a PTPase from Trypanosoma brucei cross-reacted with a 55-60 kDa molecule present in the soluble detergent-extracted fraction of a Leishmania homogenate. Metacyclic promastigotes expressed more of this molecule than parasites in the procyclic stage. Yet the specific activity of the enzyme was lower in metacyclic than in procyclic promastigotes. Ultrastructural localization of the enzyme showed that it was more membrane-associated in metacyclic promastigotes, whereas in procyclic promastigotes it was scattered throughout the cytoplasm. This is the first demonstration of a PTPase present in Leishmania major promastigotes that differs in expression, activity and ultrastructural localization between the procyclic and metacyclic stages of the parasite's life-cycle.