Emulsifier in Diets with Different Alternative Lipid Sources: Effects on the Health of Japanese Quails

The present research aims to evaluate the inclusion of an emulsifying additive based on mono- and diglycerides of fatty acids in diets with different lipid sources, studying its effects on duodenum histology, biometry of the digestive and reproductive tract, and blood biochemical profile of Japanese quails. The study was carried out in the experimental aviary of the Federal University of Grande Dourados, Mato Grosso do Sul, Brazil. The experimental design was completely randomized, with diets in a 3x2 factorial design with three different lipid sources (soybean oil, poultry fat, and beef tallow), either supplemented or not with an emulsifier. The birds that received a diet composed of poultry fat and an emulsifying additive had a larger gizzard. Animals that received a diet containing an emulsifier, regardless of the lipid source, had greater heart weight. The duodenum of animals that received bovine tallow in their diet showed a greater height and villus:crypt ratio. Biochemical parameters were not affected by either the lipid source or the inclusion of emulsifier in quail diets. The biochemical blood profile of birds in treatments did not show significant changes among all diets used. The use of soybean oil, bovine tallow, and poultry fat with or without the inclusion of an emulsifier does not show changes in the health and development of the quails' organs, which also indicates that the health of Japanese quails in the laying phase is kept in good standards.(AU)

Inflammation reduction potential of nanostructured lipid carriers encapsulated with rat's bone marrow cells' lysate / Potencial de redução da inflamação de carreadores lipídicos nanoestruturados encapsulados com lisado de células de medula óssea de ratos

Bone marrow-derived mesenchymal stromal cells (BMSCs) have been used for treating inflammatory disorders. Due to the large size of BMSCs compared to nanoparticles, BMSCs cannot be loaded into the nanoparticles. It is hypothesized that BMSCs lysate loading into the nanocarriers will effectively deliver cellular contents and regulatory elements of BMSCs at the injury site. This study aimed to investigate nanostructured lipid carriers (NLC) loading with BMSCs lysate through basic characterization and morphological analysis. Moreover, this study was mainly designed to investigate the role of NLC loaded BMSCs lysate in reducing inflammation via in-vitro and in-vivoassays. The in-vitro study involves cell viability assays, p53, annexin V and VEGF expression through ELISA and immunocytochemistry, real-time BAX, caspase-3, IL-6, IL-8, TOP2A, PCNA, and Ki-67 gene expression analysis. Additionally, to evaluate in-vivo anti-inflammatory activity, the carrageenan-induced rat paw oedema model was used. In-vitro results showed that NLC loaded BMSCs lysate increased cell viability, decreased apoptosis and pro-inflammatory genes expression and up-regulated angiogenesis and proliferation in H2O2 pre-stimulated cells. Findings of the in-vivo assay also indicated a reduction in rat's paw oedema volume in NLC-loaded BMSCs lysate, and downregulation of BAX, Caspase-3, IL-6, and IL-8 was observed. Enhanced expressions of TOP2A, PCNA, and Ki-67 were obtained. Concluding the results of this study, NLC-loaded BMSCs lysate could reduce inflammation and possibly regenerate damaged tissue mainly via increasing cell viability, angiogenesis and proliferation, and reducing apoptosis and pro-inflammatory cytokines.

Células estromais mesenquimais derivadas da medula óssea (BMSCs) têm sido utilizadas para o tratamento de distúrbios inflamatórios. Devido ao grande tamanho das BMSCs em comparação com as nanopartículas, as BMSCs não podem ser carregadas nas nanopartículas. Supõe-se que o carregamento de lisado de BMSCs no nanocarriers será eficaz na entrega de conteúdos celulares e elementos reguladores de BMSCs no local da lesão. Este estudo teve como objetivo investigar a carga de carreador lipídico nanoestruturado (NLC) com lisado de BMSCs através de caracterização básica e análise morfológica. Além disso, este trabalho foi projetado, principalmente, para investigar o papel do lisado de BMSCs carregado com NLC na redução da inflamação por meio de ensaios anti-inflamatórios in vitro e in vivo. O estudo in vitro envolve ensaios de viabilidade celular, expressão de p53, anexina V e VEGF por ELISA e imunocitoquímica e expressão gênica em tempo real de BAX, caspase-3, IL-6, IL-8, TOP2A, PCNA e Ki-67 . Além disso, para avaliar a atividade anti-inflamatória in vivo,o modelo de edema de pata de rato induzido por carragenina foi utilizado. Os resultados in vitro mostraram que o lisado de BMSCs carregadas com NLC aumentou a viabilidade celular, diminuiu a apoptose e a expressão de genes pró-inflamatórios e aumentou a angiogênese e proliferação em células pré-estimuladas com H2O2. Os achados do ensaio in vivo também indicaram uma redução no volume do edema da pata de rato no lisado de BMSCs carregado com NLC, entretando, foi observada a regulação negativa de BAX, Caspase-3, IL-6 e IL-8. Expressões aumentadas de TOP2A, PCNA e Ki-67 foram obtidas. Assim, concluindo os resultados do estudo, é possível afirmar que o lisado de BMSCs carregado com NLC pode reduzir a inflamação e possivelmente regenerar o tecido danificado principalmente por meio do aumento da viabilidade celular, angiogênese e proliferação e redução da apoptose e citocinas pró-inflamatórias.