Efeito imunomodulador de vesículas de membrana obtidas de macrófagosinfectados por leishmania sobre macrófagos não infectados / Immunomodulatory Effect of membrane vesicles obtained from macrophages Leishmania infection of uninfected macrophages

Vesículas de membrana (VMs) derivadas de macrófagos infectados com microorganismos intracelulares têm capacidade inflamatória. Estas vesículas podem conter antígenos do patógeno, carrear moléculas de MHC II e componentes celulares que podem atuar como PAMPs ou DAMPs induzindo resposta imune. Na infecção por Leishmania, a indução de uma resposta do tipo Th1 é crucial para promoção de proteção contra o parasito. O objetivo do trabalho foi avaliar a capacidade imunomoduladora de VMs derivadas de macrófagos infectados com L. amazonensis sobre a produção de citocinas por outros macrófagos. VMs foram visualizadas por microscopia eletrônica tanto em preparações celulares como no precipitado obtido por sucessivas centrifugações de sobrenadantes de cultivos celulares. Foi observada por citometria de fluxo a presença de marcadores celulares específicos (F4/80 e CD11b) nas VMs, bem como MHC II. O tratamento de macrófagos não infectados com VMs derivadas de macrófagos infectados com L. amazonensis ocasionou aumento consistente da produção de IL-12p70 e IL-1β. Estas vesículas poderiam, portanto, favorecer a modulação da resposta imune em favor do combate ao parasito.

Membrane vesicles (MV) derived macrophages infected with intracellular microbes are proinflammatory. These vesicles contain antigens of the pathogen, carry MHC II molecules and cellular components that can act as PAMPs or DAMPs inducing immune responses. In Leishmania infection the induction of a Th1 response is crucial for the protection against the parasite. The aim of the study was to evaluate whether vesicles derived from macrophages infected with L. amazonensis had the capacity to modulate the response of other macrophages. MV were visualized by electron microscopy in cellular preparations as well in the precipitate obtained by centrifugation of cell supernatants. Flow cytometry revealed the presence of specific cellular markers (F4/80 and CD11b) in the MV, as well as MHC II. Treatment of noninfected macrophages with MV derived from L. amazonensis-infected macrophages consistently caused increased production of IL-12p70 and IL-1β. These vesicles can favor the modulation of the immune response in favor of combating the parasite.

In silico prediction of exposure amino acid sequences of outer inflammatory protein A of Helicobacter pylori for surface display on Eschierchia coli.

BACKGROUND: Outer inflammatory protein A (OipA) is an outer membrane protein of Helicobacter pylori that is involved in inducing IL-8 and intracellular signaling. In this study, we have predicted exposure amino acid sequences of OipA for insertion in permissive sites of CstH subunit of Eschierchia coli CS3 pilli for bacterial surface display. MATERIALS AND METHODS: Databases: National Center for Biotechnology Institute and Protein Data Bank. Servers: PHD, SABLE, GOR 4, SignalP3.0, TBBpred, PRODIV-TMHMM, TMRPres2D, CPH Models, PHYRE, GETAREA, VADAR, Pep state and pep window. Software: Swiss PDB viewer and Discovery studio. RESULTS: In silico prediction of exposure amino acid sequences of OipA led to detection of six sequences of amino acid, 76-87, 106-112, 170-182, 222-230, 242-258, and 278-290. These sequences inserted between amino acid sequences 66-67, 100-101, and 109-110 of CstH that were predicted by Eskandari et al. as permissive sites of CstH. CONCLUSION: OipA has the ability to induce IL-8 from gastric epithelial cells and some papers are mentioned that this outer membrane protein involve to attachment and intracellular signaling. Receptor of OipA and adhesion motifs on this protein is unknown. Detection of exposure motifs aids to recognition of adhesion motifs and receptor of OipA on gastric epithelial cells. In this study, we have predicted exposure amino acid sequences for insert to subunit CstH of CS3 pilli E. coli for surface display.