The food additive titanium dioxide hinders intestinal production of TGF-ß and IL-10 in mice, and long-term exposure in adults or from perinatal life blocks oral tolerance to ovalbumin.

Food hypersensitivities are increasing in industrialized countries, and foodborne nanoparticles (NPs) are suspected as co-factors in their aetiology. Food-grade titanium dioxide (fg-TiO2), a food colouring agent, is composed of NPs with immunomodulatory properties. We investigated whether fg-TiO2 may compromise the establishment of oral tolerance (OT) to food proteins using a model of OT induction to ovalbumin (OVA) in mice, and whether a perinatal exposure could trigger this effect. In pregnant mice fed a TiO2-enriched diet, ICP-MS and TEM-EDX analyses showed passage of TiO2 NPs into the foetus. When their weaned offspring were fed the same diet, a breakdown in OT to OVA was observed at adulthood, characterized by a high anti-OVA IgG production compared to controls. However, adult mice directly exposed to fg-TiO2 did not induce OT to OVA either, ruling out a developmental origin for these effects. When these mice were orally challenged with OVA, intestinal inflammation demonstrated hypersensitivity to OVA. In OVA-naïve mice, fg-TiO2 exposure impaired intestinal TGF-ß and IL-10 production, of key role in OT induction and maintenance. These findings showed that long-term exposure to TiO2 as food additive alters anti-inflammatory cytokine profile, and leads to OT failure regardless of the timing of TiO2 exposure throughout life.

In vitro models for investigation of the host-parasite interface - possible applications in acute Chagas disease.

Chagas disease (CD), caused by Trypanosoma cruzi, is the main parasitic disease in the Western Hemisphere, with an increasing number of cases, especially in non-endemic regions. The disease is characterized by cardiomegaly and mega viscera, nevertheless, the clinical outcome is hard to predict, underscoring the need for further research into the pathophysiology of CD. Even though most basic and translational research involving CD is performed using in vivo models, in vitro models arise as an ethical, rapidly evolving, and physiologically relevant alternative for CD research. In the present review, we discuss the past and recent in vitro models available to study the host-parasite interface in cardiac and intestinal CD, critically analyzing the possibilities and limitations of state-of-the-art alternatives for the CD host-parasite investigation.

Genotype and expression of the enhanced gree fluorescent protein in LEW-Tg (EGFP) F455.5/Rrrc rats / Genótipo e expressão da proteína fluorescente verde melhorada em ratos da linhagem LEW-Tg (EGFP) F455.5/Rrrc

The Green fluorescent protein (GFP) was first described after being extracted from Aequorea victoria in 1987; Since then, GFP and its derivatives have been widely used in several experiments as cell and protein marker. In the present study it was verified the genotype of the offspring from crosses between heterozygote Lewis LEW-Tg (EGFP) F455.5/Rrrc rats and analyzed the expression of the enhanced green fluorescent protein (EGFP) in different cell types and genotypes. The genotype of the offspring was assessed by PCR and analysis of EGFP expression in different cells and genotypes, including mesenchymal stem cells (MSC) derived from adipose tissue and calvarial osteoblast cells. Expression of EGFP was verified by flow cytometry, fluorescence microscopy, and immunostaining. Through these methods, it was identified the genotypes of the offspring and determined the levels of expression of EGFP in two cell types. A difference in expression between the (EGFP +/+) and (EGFP +/-) genotypes was also observed in addition to the presence of autofluorescence. Further studies on the natural fluorescence of cells with the (EGFP +/-) genotype and that induced by presence of the EGFP are necessary.

A proteína fluorescente verde (GFP) foi descrita pela primeira vez após ter sido extraída de Aequorea victoria em 1987. Desde então, a GFP e seus derivados têm sido amplamente utilizados em várias experiências como marcador celular e de proteínas. O objetivo do presente estudo foi o de verificar o genótipo dos descendentes de cruzamentos entre ratos Lewis LEW-Tg (EGFP) F455.5/Rrrc heterozigotos e de analisar a expressão da proteína fluorescente verde melhorada (EGFP) em diferentes tipos celulares e genótipos. O genótipo da descendência foi avaliado por PCR e pela análise da expressão da EGFP em diferentes células e genótipos, incluindo-se as células-tronco mesenquimais (MSC) derivadas de tecido adiposo e de osteoblastos de calvária. A expressão da EGFP foi verificada por citometria de fluxo, microscopia de fluorescência e imunocoloração. Foram, identificados os genótipos da descendência e determinados os níveis de expressão de EGFP em dois tipos de células. Foi também constatada uma diferença de expressão entre os genótipos (EGFP +/+) e (EGFP +/-) além da presença de autofluorescência. Mais estudos são necessários para esclarecer a fluorescência natural de células com o genótipo (EGFP +/-) e aquela induzida pela presença da EGFP.

Spleen cell proliferation during and after skin myiasis by human bot fly Dermatobia hominis.

Spleen cells from mice were examined at 5, 10, 15, 20 and 25 days post-infection (dpi) with Dermatobia hominis larva and at 5, 10, 15, 30 and 60 days post-larval emergence (dple). Cell proliferation in vitro assays were carried out with RPMI-1640 medium and larval secretory product (LSP) of D. hominis at 5, 10, 15, 20 and 25 days. When each group of mice was tested against each medium, significance was only seen for 25 dpi, with increasing order: LSP-10 d, -25 d, -5 d, -20 d, -15 d and RPMI. Significant results were also observed when each medium was tested against mice at each dpi or dple. Each dple group vs. each medium produced significant results only for 10 dple, with increasing order: LSP-5 d, -20 d, -25 d, -10 d, -15 d and RPMI. Comparative tests were also carried out between groups to refine certain observations. The LSPs were also analyzed using SDS-PAGE. The results prove that myiasis caused depletion of spleen cells, particularly under the effect of the LSP-10 and -15, but the cells tended to increase up to 60 dple. This in vitro assay may represent the real systemic immune response in the relationship LSP-D. hominis-host.

Spleen cell proliferation during and after skin myiasis by human bot fly Dermatobia hominis / Proliferação de células do baço durante e após miíase por Dermatobia hominis

Spleen cells from mice were examined at 5, 10, 15, 20 and 25 days post-infection (dpi) with Dermatobia hominis larva and at 5, 10, 15, 30 and 60 days post-larval emergence (dple). Cell proliferation in vitro assays were carried out with RPMI-1640 medium and larval secretory product (LSP) of D. hominis at 5, 10, 15, 20 and 25 days. When each group of mice was tested against each medium, significance was only seen for 25 dpi, with increasing order: LSP-10 d, -25 d, -5 d, -20 d, -15 d and RPMI. Significant results were also observed when each medium was tested against mice at each dpi or dple. Each dple group vs. each medium produced significant results only for 10 dple, with increasing order: LSP-5 d, -20 d, -25 d, -10 d, -15 d and RPMI. Comparative tests were also carried out between groups to refine certain observations. The LSPs were also analyzed using SDS-PAGE. The results prove that myiasis caused depletion of spleen cells, particularly under the effect of the LSP-10 and -15, but the cells tended to increase up to 60 dple. This in vitro assay may represent the real systemic immune response in the relationship LSP-D. hominis-host.

Células do baço de camundongos foram examinadas aos 5, 10, 20 e 25 dias pós-infecção (dpi) com Dermatobia hominis e examinadas aos 5, 10, 15, 30 e 60 dias pós-emergência da larva (dpel). As células foram cultivadas em meio RPMI-1640 contendo, ou não (controle), produtos de secreção das larvas (PSL) de D. hominis com idade de 5, 10, 15, 20 e 25 dias. Em cada grupo com cinco camundongos testados nos meios de cultura, o número de células foi significativo para 25 dpi, com crescente aumento na seguinte ordem: PSL-10 d, -25 d, -5 d, -20 d, -15 d e RPMI. Resultados significantes foram também observados nos testes entre cada meio contendo células tanto de camundongos dpi ou dpel. Em cada dpel grupo versus meio significância foi somente verificada para 10 dpel, na ordem crescente: PSL-5 d, -20 d, -25 d, -10 d, -15 d e RPMI. Testes comparativos foram também realizados entre grupos. O PSL foi analisado sob SDS-PAGE. Os resultados provam que a miíase causou depleção de células do baço, particularmente sob efeito do PSL-10 e -15, mas ocorreu normalidade do número de células aos 60 dpel. Este ensaio in vitro pode representar uma resposta imune sistêmica na relação PSL-D. hominis-hospedeiro.