Hemolymph of triatomines presents fungistatic activity against Cryptococcus neoformans and improves macrophage function through MCP-I/TNF-α increase

Abstract Background: Triatomines are blood-feeding arthropods belonging to the subfamily Triatominae (Hemiptera; Reduviidae), capable of producing immunomodulatory and water-soluble molecules in their hemolymph, such as antimicrobial peptides (AMPs). In this work, we evaluated the antifungal and immunomodulatory activity of the hemolymph of Meccus pallidipennis (MPH) and Rhodnius prolixus (RPH) against Cryptococcus neoformans. Methods: We assessed the activity of the hemolymph of both insects on fungal growth by a minimum inhibitory concentration (MIC) assay. Further, RAW 264.7 macrophages were cultivated with hemolymph and challenged with C. neoformans. Then, their phagocytic and killing activities were assessed. The cytokines MCP-1, IFN-γ, TNF-α, IL-10, IL-12, and IL-6 were measured in culture supernatants 4- and 48-hours post-infection. Results: Both hemolymph samples directly affected the growth rate of the fungus in a dose-dependent manner. Either MPH or RPH was capable of inhibiting fungal growth by at least 70%, using the lowest dilution (1:20). Treatment of RAW 264.7 macrophages with hemolymph of both insects was capable of increasing the production of MCP-I and TNF-α. In addition, when these cells were stimulated with hemolymph in the presence of C. neoformans, a 2- and a 4-fold increase in phagocytic rate was observed with MPH and RPH, respectively, when compared to untreated cells. For the macrophage killing activity, MPH decreased in approximately 30% the number of viable yeasts inside the cells compared to untreated control; however, treatment with RPH could not reduce the total number of viable yeasts. MPH was also capable of increasing MHC-II expression on macrophages. Regarding the cytokine production, MCP-I and TNF-α, were increased in the supernatant of macrophages treated with both hemolymphs, 4 and 48 hours after stimulation. Conclusion: These results suggested that hemolymph of triatomines may represent a source of molecules capable of presenting antifungal and immunomodulatory activity in macrophages during fungal infection

Therapeutic activity of Aedes aegypti saliva in experimental colitis

As Doenças Inflamatórias Intestinais (DII) são caracterizadas por resposta inflamatória exacerbada na mucosa intestinal, com desbalanço entre mecanismos pró-inflamatórios e reguladores. Entretanto, até o momento, nenhuma terapia é curativa e vários pacientes são refratários ou intolerantes a elas, necessitando de intervenções cirúrgicas para combater as complicações da doença. Sendo assim, é evidente que novas terapias são necessárias para o controle da progressão das DII. Dessa forma, como a saliva de insetos hematófagos constitui uma fonte importante de moléculas com potencial farmacológico, o objetivo desse trabalho foi avaliar a atividade terapêutica do extrato de glândula salivar (EGS) do Aedes aegypti e suas frações na colite experimental. Para tal, camundongos C57BL/6 foram submetidos à indução de colite pela administração de água contendo 3% de dextran sulfato de sódio (DSS). Os resultados demonstraram melhora na condição clínica e no escore pós-morte dos camundongos tratados com o EGS i.v. ou i.p. Essa melhora foi acompanhada de redução de leucócitos no sangue periférico, principalmente quando os animais foram tratados i.v. Além disso, redução do infiltrado inflamatório e das citocinas patogênicas IL-12, IFN-?, TNF-?, IL- 1? e IL-5, no intestino, foi também associada ao tratamento. Ademais, houve diminuição da frequência de linfócitos TCD4+ produtores de IFN-?, IL-17 e IL-4 no baço e nos linfonodos mesentéricos (LNM) dos animais tratados com EGS. Ainda, uma menor frequência de células CD11b+ no baço e CD49b+ nos LNM também foi detectada nos animais com inflamação intestinal tratados com o EGS. De forma interessante, quando expostos por dois ciclos ao DSS, o tratamento precoce com EGS (1o ciclo) protegeu os camundongos do desenvolvimento da colite após nova indução da inflamação intestinal (2o ciclo), sugerindo que a saliva do A. aegypti possui componentes com capacidade de retardar o aparecimento e a gravidade da recidiva da doença. A melhora na condição clínica associada ao tratamento com EGS parece também estar associada à modulação de populações bacterianas no intestino com características supostamente colitogênicas (Pseudomonas monteilii) e protetoras (Ruminococus champanelensis e Turicibacter sanguinis). De fato, o transplante de microbiota de camundongos tratados com EGS para animais que sofreram indução da colite levou à aparente melhora do escore pós-morte e à redução de leucócitos circulantes. Além disso, o transplante diminuiu a expressão de RNAm das citocinas inflamatórias IFN-? e IL-1?, indicando que alterações na microbiota intestinal podem ser um dos mecanismos pelos quais o EGS modula a colite experimental. Finalmente, experimentos utilizando a cromatografia líquida de alta performance (HPLC) sugerem que uma fração (F3) do extrato bruto da saliva, pode ser a responsável pela melhora observada nos sinais clínicos da doença. De forma geral, o EGS e seus componentes parecem representar uma fonte importante de moléculas imunomoduladoras com potencial terapêutico no tratamento da inflamação intestinal induzida experimentalmenteInflammatory Bowel Disease (IBD) is an inflammatory disorder characterized by an imbalance between inflammatory and regulatory immune responses at the gut mucosa. However, current therapies are not totally effective and a plenty of patients require repeated surgeries to control disease complications. So, it is clear that novel therapies are still needed to control IBD progression. Thereby, since saliva from bloodsucking arthropods is a rich source of pharmacologically bioactive molecules, the aim of this study was to evaluate the therapeutic activity of Aedes aegypti total (SGE) and fractionated saliva in the treatment of experimental colitis. For this purpose, C57BL/6 male mice were exposed to 3% dextran sulfate sodium (DSS) in drinking water. The results showed an improvement in clinical disease outcome and postmortem scores after SGE treatment, regardless the route of administration used (i.p. or i.v.). This amelioration was accompanied by the systemic reduction in peripheral blood lymphocytes, especially when the i.v route was used. Furthermore, a reduction in the inflammatory area together with a local diminishment of IFN- ?, TNF-?, IL-1? and IL-5 cytokines were observed in the colon of SGE-treated mice. Similarly, a reduction of the frequency of TCD4+ lymphocytes producing IFN-?, IL-17 and IL-4 was observed in spleen and mesenteric lymph nodes (MLN) of SGE-treated mice. A lower frequency of CD11b+ cells in spleen and CD49b+ in MLN was also observed after SGE treatment. Interestingly, early treatment with SGE led to mice protection from a late DSS rechallenging, indicating that the mosquito saliva may present components able to prevent disease relapse. Clinical improvement due to SGE therapy seems to be also related to the modulation of intestinal bacterial population with different characteristics. Thus, SGE-therapy managed to a diminishment of colitogenic (Pseudomonas monteilii) and improvement of protective (Ruminococus champanelensis e Turicibacter sanguinis) bacteria. In fact, microbiota transplantation from SGE-tretaed mice to mice exposed to DSS-colitis improved postmortem scores and induced systemic diminishment in peripheral blood lymphocytes. Additionally, a reduced mRNA levels for the inflammatory cytokines IFN-? and IL-1?, was observed in transplanted mice, pointing to the effects of SGE-therapy in the modulation of gut microbes as one of the mechanisms related to the improvement of disease outcome. Finally, high performance liquid chromatography (HPLC) experiments suggested a major SGE pool fraction (F3) able to ameliorate disease signs. In conclusion, SGE and its components might represent a source of important immunomodulatory molecules with promising therapeutic activity for experimentally induced intestinal inflammation

Therapeutic activity of Aedes aegypti saliva in experimental colitis

As Doenças Inflamatórias Intestinais (DII) são caracterizadas por resposta inflamatória exacerbada na mucosa intestinal, com desbalanço entre mecanismos pró-inflamatórios e reguladores. Entretanto, até o momento, nenhuma terapia é curativa e vários pacientes são refratários ou intolerantes a elas, necessitando de intervenções cirúrgicas para combater as complicações da doença. Sendo assim, é evidente que novas terapias são necessárias para o controle da progressão das DII. Dessa forma, como a saliva de insetos hematófagos constitui uma fonte importante de moléculas com potencial farmacológico, o objetivo desse trabalho foi avaliar a atividade terapêutica do extrato de glândula salivar (EGS) do Aedes aegypti e suas frações na colite experimental. Para tal, camundongos C57BL/6 foram submetidos à indução de colite pela administração de água contendo 3% de dextran sulfato de sódio (DSS). Os resultados demonstraram melhora na condição clínica e no escore pós-morte dos camundongos tratados com o EGS i.v. ou i.p. Essa melhora foi acompanhada de redução de leucócitos no sangue periférico, principalmente quando os animais foram tratados i.v. Além disso, redução do infiltrado inflamatório e das citocinas patogênicas IL-12, IFN-?, TNF-?, IL- 1? e IL-5, no intestino, foi também associada ao tratamento. Ademais, houve diminuição da frequência de linfócitos TCD4+ produtores de IFN-?, IL-17 e IL-4 no baço e nos linfonodos mesentéricos (LNM) dos animais tratados com EGS. Ainda, uma menor frequência de células CD11b+ no baço e CD49b+ nos LNM também foi detectada nos animais com inflamação intestinal tratados com o EGS. De forma interessante, quando expostos por dois ciclos ao DSS, o tratamento precoce com EGS (1o ciclo) protegeu os camundongos do desenvolvimento da colite após nova indução da inflamação intestinal (2o ciclo), sugerindo que a saliva do A. aegypti possui componentes com capacidade de retardar o aparecimento e a gravidade da recidiva da doença. A melhora na condição clínica associada ao tratamento com EGS parece também estar associada à modulação de populações bacterianas no intestino com características supostamente colitogênicas (Pseudomonas monteilii) e protetoras (Ruminococus champanelensis e Turicibacter sanguinis). De fato, o transplante de microbiota de camundongos tratados com EGS para animais que sofreram indução da colite levou à aparente melhora do escore pós-morte e à redução de leucócitos circulantes. Além disso, o transplante diminuiu a expressão de RNAm das citocinas inflamatórias IFN-? e IL-1?, indicando que alterações na microbiota intestinal podem ser um dos mecanismos pelos quais o EGS modula a colite experimental. Finalmente, experimentos utilizando a cromatografia líquida de alta performance (HPLC) sugerem que uma fração (F3) do extrato bruto da saliva, pode ser a responsável pela melhora observada nos sinais clínicos da doença. De forma geral, o EGS e seus componentes parecem representar uma fonte importante de moléculas imunomoduladoras com potencial terapêutico no tratamento da inflamação intestinal induzida experimentalmenteInflammatory Bowel Disease (IBD) is an inflammatory disorder characterized by an imbalance between inflammatory and regulatory immune responses at the gut mucosa. However, current therapies are not totally effective and a plenty of patients require repeated surgeries to control disease complications. So, it is clear that novel therapies are still needed to control IBD progression. Thereby, since saliva from bloodsucking arthropods is a rich source of pharmacologically bioactive molecules, the aim of this study was to evaluate the therapeutic activity of Aedes aegypti total (SGE) and fractionated saliva in the treatment of experimental colitis. For this purpose, C57BL/6 male mice were exposed to 3% dextran sulfate sodium (DSS) in drinking water. The results showed an improvement in clinical disease outcome and postmortem scores after SGE treatment, regardless the route of administration used (i.p. or i.v.). This amelioration was accompanied by the systemic reduction in peripheral blood lymphocytes, especially when the i.v route was used. Furthermore, a reduction in the inflammatory area together with a local diminishment of IFN- ?, TNF-?, IL-1? and IL-5 cytokines were observed in the colon of SGE-treated mice. Similarly, a reduction of the frequency of TCD4+ lymphocytes producing IFN-?, IL-17 and IL-4 was observed in spleen and mesenteric lymph nodes (MLN) of SGE-treated mice. A lower frequency of CD11b+ cells in spleen and CD49b+ in MLN was also observed after SGE treatment. Interestingly, early treatment with SGE led to mice protection from a late DSS rechallenging, indicating that the mosquito saliva may present components able to prevent disease relapse. Clinical improvement due to SGE therapy seems to be also related to the modulation of intestinal bacterial population with different characteristics. Thus, SGE-therapy managed to a diminishment of colitogenic (Pseudomonas monteilii) and improvement of protective (Ruminococus champanelensis e Turicibacter sanguinis) bacteria. In fact, microbiota transplantation from SGE-tretaed mice to mice exposed to DSS-colitis improved postmortem scores and induced systemic diminishment in peripheral blood lymphocytes. Additionally, a reduced mRNA levels for the inflammatory cytokines IFN-? and IL-1?, was observed in transplanted mice, pointing to the effects of SGE-therapy in the modulation of gut microbes as one of the mechanisms related to the improvement of disease outcome. Finally, high performance liquid chromatography (HPLC) experiments suggested a major SGE pool fraction (F3) able to ameliorate disease signs. In conclusion, SGE and its components might represent a source of important immunomodulatory molecules with promising therapeutic activity for experimentally induced intestinal inflammation

Genetic variation of FcγRIIa induces higher uptake of Leishmania infantum and modulates cytokine production by adherent mononuclear cells in vitro

IntroductionSingle nucleotide variations (SNVs) are specific genetic variations that commonly occur in a population and often do not manifest phenotypically. However, depending on their location and the type of nucleotide exchanged, an SNV can alter or inhibit the function of the gene in which it occurs. Immunoglobulin G (IgG) receptor genes have exhibited several polymorphisms, including rs1801274, which is found in the FcgRIIa gene. The replacement of A with T results in a Histidine (H) to Arginine (R) substitution, altering the affinity of the IgG receptor for IgG subtypes and C-reactive protein (CRP). In this study, we analyzed rs1801274 and its functional implications concerning L. Infantum uptake and cytokine production.MethodsWe genotyped 201 individuals from an endemic area for visceral leishmaniasis to assess the presence of rs1801274 using Taqman probes for a candidate gene study. Additionally, we included seventy individuals from a non-endemic area for a functional study. Subsequently, we isolated and cultivated one-week adherent mononuclear cells (AMCs) derived from the peripheral blood of participants residing in the non-endemic region in the presence of L. infantum promastigotes, with and without antigen-specific IgG and/or CRP. We analyzed the rate of phagocytosis and the production of nitric oxide (NO), tumor necrosis factor (TNF)-a, interleukin (IL)-10, IL-12 p70, IL-1b, IL- 6, and IL-8 in the culture supernatants.Results and discussionIn participants from the endemic region, the A/G (H/R isoform) heterozygous genotype was significantly associated with susceptibility to the disease. Furthermore, SNVs induced a change in the phagocytosis rate in an opsonin-dependent manner. Opsonization with IgG increased the production of IL-10, TNF-a, and IL-6 in AMCs with the H/R isoform, followed by a decrease in NO production. The results presented here suggest that the rs1801274 polymorphism is linked to a higher susceptibility to visceral leishmaniasis

The CDR3 region as the major driver of TREM-1 interaction with its ligands, an in silico characterization

The triggering receptor expressed on myeloid cells-1 (TREM-1) is a pattern recognition receptor heavily investigated in infectious and non-infectious diseases. Because of its role in amplifying inflammation, TREM-1 has been explored as a diagnostic/prognostic biomarker. Further, as the receptor has been implicated in the pathophysiology of several diseases, therapies aiming at modulating its activity represent a promising strategy to constrain uncontrolled inflammatory or infectious diseases. Despite this, several aspects concerning its interaction with ligands and activation process, remain unclear. Although many molecules have been suggested as TREM-1 ligands, only five have been confirmed to interact with the receptor: actin, eCIRP, HMGB1, Hsp70 and PGLYRP1. However, the domains involved in the interaction between the receptor and these proteins are not clarified yet. Therefore, here we used in silico approaches to investigate the putative binding domains in the receptor, using hot spots analysis, molecular docking and molecular dynamics simulations between TREM-1 and its five known ligands. Our results indicated the complementarity-determining regions (CDRs) of the receptor as the main mediators of antigen recognition, especially the CDR3 loop. We believe that our study could be used as structural basis for the elucidation of TREM-1′s recognition process, and may be useful for prospective in silico and biological investigations exploring the receptor in different contexts

Adrenal-Derived Hormones Differentially Modulate Intestinal Immunity in Experimental Colitis

The adrenal glands are able to modulate immune responses through neuroimmunoendocrine interactions and cortisol secretion that could suppress exacerbated inflammation such as in inflammatory bowel disease (IBD). Therefore, here we evaluated the role of these glands in experimental colitis induced by 3% dextran sulfate sodium (DSS) in C57BL/6 mice subjected to adrenalectomy, with or without glucocorticoid (GC) replacement. Mice succumbed to colitis without adrenals with a higher clinical score and augmented systemic levels of IL-6 and lower LPS. Furthermore, adrenalectomy negatively modulated systemic regulatory markers. The absence of adrenals resulted in augmented tolerogenic lamina propria dendritic cells but no compensatory local production of corticosterone and decreased mucosal inflammation associated with increased IFN-γ and FasL in the intestine. To clarify the importance of GC in this scenario, GC replacement in adrenalectomized mice restored different markers to the same degree of that observed in DSS group. Finally, this is the first time that adrenal-derived hormones, especially GC, were associated with the differential local modulation of the gut infiltrate, also pointing to a relationship between adrenalectomy and the modulation of systemic regulatory markers. These findings may elucidate some neuroimmunoendocrine mechanisms that dictate colitis outcome