Leishmanicidal activity in vitro of Musa paradisiaca L. and Spondias mombin L. fractions

Visceral leishmaniasis (VL) is a zoonotic disease characterized by infection of mononuclear phagocytes by Leishmania chagasi. The primary vector is Lutzomyia longipalpis and the dog is the main domestic reservoir. The control and current treatment of dogs using synthetic drugs have not shown effectiveness in reducing the incidence of disease in man. In attempt to find new compounds with leishmanicidal action, plant secondary metabolites have been studied in search of treatments of VL. This study aimed to evaluate the leishmanicidal activity of Musa paradisiaca (banana tree) and Spondias mombin (cajazeira) chemical constituents on promastigotes and amastigotes of L. chagasi. Phytochemical analysis by column chromatography was performed on ethanol extracts of two plants and fractions were isolated. Thin layer chromatography was used to compare the fractions and for isolation the substances to be used in vitro tests. The in vitro tests on promastigotes of L chagasi used the MTT colorimetric method and the method of ELISA in situ was used against amastigotes besides the cytotoxicity in RAW 264.7 cells. Of the eight fractions tested, Sm1 and Sm2 from S. mombin had no action against promastigotes, but had good activity against amastigotes. The fractions Mp1 e Mp4 of M. paradisiaca were very cytotoxic to RAW 264.7 cells. The best result was obtained with the fraction Sm3 from S. mombin with IC50 of 11.26 mu g/ml against promastigotes and amastigotes of 0.27 mu g/ml. The fraction Sm3 characterized as tannic acid showed the best results against both forms of Leishmania being a good candidate for evaluation in in vivo tests. (C) 2012 Published by Elsevier B.V.

Interferon-gamma alters the phagocytic activity of the mouse trophoblast

Interferon-gamma (IFN-gamma) mediates diverse functions in bone marrow-derived phagocytes, including phagocytosis and microbe destruction. This cytokine has also been detected at implantation sites under both physiological and pathological conditions in many different species. At these particular sites, the outermost embryonic cell layer in close contact with the maternal tissues, the trophoblast exhibits intense phagocytic activity. To determine whether IFN-gamma affects phagocytosis of mouse-trophoblast cells, ectoplacental cone-derived trophoblast was cultured and evaluated for erythrophagocytosis. Phagocytic activity was monitored ultrastructurally and expressed as percentage of phagocytic trophoblast in total trophoblast cells. Conditioned medium from concanavalin-A-stimulated spleen cells significantly enhanced trophoblast phagocytosis. This effect was blocked by pre-incubation with an anti-IFN-gamma neutralizing antibody. Introduction of mouse recombinant IFN-gamma (mrIFN-gamma) to cultures did not increase cell death, but augmented the percentage of phagocytic cells in a dose-dependent manner. Ectoplacental cones from mice deficient for IFN-gamma receptor alpha-chain showed a significant decrease of the phagocytosis, even under mrIFN-gamma stimulation, suggesting that IFN-gamma-induced phagocytosis are receptor-mediated. Reverse transcriptase-PCR analyses confirmed the presence of mRNA for IFN-gamma receptor alpha and beta-chains in trophoblast cells and detected a significant increase in the mRNA levels of IFN-gamma receptor beta-chain, mainly, when cultured cells were exposed to IFN-gamma. Immunohistochemistry and Western blot analyses also revealed protein expression of the IFN-gamma receptor alpha-chain. These results suggest that IFN-gamma may participate in the phagocytic activation of the mouse trophoblast, albeit the exact mechanism was not hereby elucidated. Protective and/or nutritional fetal benefit may result from this physiological response. In addition, our data also shed some light on the understanding of trophoblast tolerance to inflammatory/immune cytokines during normal gestation.

Viabilidade celular, fagocitose e espraiamento de fagócitos mononucleares, e liberação de peróxido de hidrogênio por leucócitos de glândulas mamárias bovinas sadias e infectadas

O presente estudo objetivou avaliar a viabilidade celular, a capacidade de fagocitose e espraiamento pelos fagócitos mononucleares, e a liberação de peróxido de hidrogênio (H2O2) por leucócitos oriundos de glândulas mamárias bovinas sadias e infectadas. Deste modo, 94 amostras foram divididas de acordo com os resultados da cultura bacteriológica e da contagem de células somáticas (CCS). O presente estudo não encontrou diferenças na viabilidade celular, e nos índices de fagocitose e espraiamento entre os diferentes grupos. No entanto, a liberação de H2O2 oriundos dos quartos mamários infectados, infectados por Streptococcus spp. ou Corynebacterium spp. foi menor do que nas amostras de leite provenientes dos quartos mamários sadios. Ao estimar a concentração de H2O2 mL-1 leite observou-se que as amostras de quartos mamários positivos no exame bacteriológico, infectados por Staphylococcus spp. e negativos no exame bacteriológico com alta celularidade foram maiores que aquelas provenientes de quartos mamários sadios. Observou-se também correlação positiva entre a CCS e a viabilidade celular e os índices de fagocitose e espraiamento; e correlação negativa entre a liberação de H2O2 e a CCS e a viabilidade celular. Conclui-se que a CCS, assim como a sua viabilidade e função, são conceitos intimamente relacionados com a saúde da glândula mamária.

Fagocitose intensificada de Corynebacterium pseudotuberculosis por células da série monócito-macrófago de caprinos naturalmente infectados pelo vírus da artrite encefalite

A Artrite Encefalite Caprina (AEC) e a Linfadenite Caseosa (LC) possuem alta incidência e transmissibilidade em pequenos ruminantes. Como ambas possuem tropismo por monócitos-macrófagos e afetam mecanismos da resposta inata do hospedeiro, acredita-se que a AEC predispõe o animal a infecções por Corynebacteruim pseudotuberculosis, agente etiológico da LC. Para confirmar esta hipótese, avaliou-se a fagocitose de células da série monócito-macrófago de cabras naturalmente infectadas pelo vírus da AEC (VAEC). Para tanto, foram utilizadas 30 cabras da raça Saanen, alocadas em dois grupos distintos, com 15 animais cada, conforme a sororreatividade de anticorpos séricos antivírus da AEC. Células mononucleares de sangue periférico foram isoladas por gradiente de densidade e plaqueadas para isolamento de células da série monócito-macrófago. Posteriormente, o ensaio de fagocitose de C. pseudotuberculosis foi realizado, após incubação por duas horas a 37ºC a 5% de CO2, e a visualização da fagocitose foi identificada por microscopia óptica. O presente estudo não encontrou diferença na porcentagem de monócito-macrófagos que realizaram fagocitose entre os diferentes grupos (P = 0,41). Todavia, a análise quantitativa de bactérias fagocitadas, demonstrou maior capacidade fagocítica pelos macrófagos-monócitos do grupo sororreagente ao vírus da AEC. Correlação entre monócitos fagocitando e macrófagos que fagocitaram mais de 12 bactérias foi observado neste grupo (r = 0,488; P = 0,006), não sendo o mesmo encontrado no grupo de animais sorroreagentes negativos. Os dados demonstram aumento na intensidade da fagocitose de macrófagos de animais infectados com o vírus da AEC.

Binding of the wheat germ lectin to Cryptococcus neoformans chitooligomers affects multiple mechanisms required for fungal pathogenesis

The principal capsular component of Cryptococcus neoformans, glucuronoxylomannan (GXM), interacts with surface glycans, including chitin-like oligomers. Although the role of GXM in cryptococcal infection has been well explored, there is no information on how chitooligomers affect fungal pathogenesis. In this study, surface chitooligomers of C. neoformans were blocked through the use of the wheat germ lectin (WGA) and the effects on animal pathogenesis, interaction with host cells, fungal growth and capsule formation were analyzed. Treatment of C. neoformans cells with WGA followed by infection of mice delayed mortality relative to animals infected with untreated fungal cells. This observation was associated with reduced brain colonization by lectin-treated cryptococci. Blocking chitooligomers also rendered yeast cells less efficient in their ability to associate with phagocytes. WGA did not affect fungal viability, but inhibited GXM release to the extracellular space and capsule formation. In WGA-treated yeast cells, genes that are involved in capsule formation and GXM traffic had their transcription levels decreased in comparison with untreated cells. Our results suggest that cellular pathways required for capsule formation and pathogenic mechanisms are affected by blocking chitin-derived structures at the cell surface of C. neoformans. Targeting chitooligomers with specific ligands may reveal new therapeutic alternatives to control cryptococcosis.