Impact of dietary fat on gut microbiota and low-grade systemic inflammation: mechanisms and clinical implications on obesity.

Dietary fat strongly affects human health by modulating gut microbiota composition and low-grade systemic inflammation. High-fat diets have been implicated in reduced gut microbiota richness, increased Firmicutes to Bacteroidetes ratio, and several changes at family, genus and species levels. Saturated (SFA), monounsaturated (MUFA), polyunsaturated (PUFA) and conjugated linolenic fatty acids share important pathways of immune system activation/inhibition with gut microbes, modulating obesogenic and proinflammatory profiles. Mechanisms that link dietary fat, gut microbiota and obesity are mediated by increased intestinal permeability, systemic endotoxemia, and the activity of the endocannabinoid system. Although the probiotic therapy could be a complementary strategy to improve gut microbiota composition, it did not show permanent effects to treat fat-induced dysbiosis. Based upon evidence to date, we believe that high-fat diets and SFA consumption should be avoided, and MUFA and omega-3 PUFA intake should be encouraged in order to regulate gut microbiota and inflammation, promoting body weight/fat control.

Intestinal microbiota and probiotics in celiac disease.

Celiac disease (CD) is a common chronic autoimmune enteropathy caused by gluten intake. To date, the only therapy for CD is the complete exclusion of dietary sources of grains and any food containing gluten. It has been hypothesized that the intestinal microbiota is somehow involved in CD. For this reason, probiotics are appearing as an interesting adjuvant in the dietetic management of CD. This review aims to discuss the characteristics of the microbiota in CD subjects and the use of probiotics as a novel therapy for CD. Comparisons between children with CD and controls show that their microbiota profiles differ; the former have fewer lactobacilli and bifidobacteria. Specific probiotics have been found to digest or alter gluten polypeptides. It has also been demonstrated that some bacterial species belonging to the genera Lactobacillus and Bifidobacterium exert protective properties on epithelial cells from damage caused by gliadin.

Evaluation of the subchronic toxicity of kefir by oral administration in Wistar rats / Evaluación de la toxicidad subcrónica del kéfir por administración oral en ratas Wistar

Introduction: Kefir is obtained by fermentation of milk with complex microbial populations present in kefir grains. Several health-promoting benefits have been attributed to kefir consumption. Objective: The objective of this work was to conduct a subchronic toxicity study, offering the rats normal or high-doses of kefir and evaluating growth, hematology and blood chemistry, as well as assessing bacterial translocation and the integrity of the intestinal mucosa of animals. Methods: Wistar rats were randomly divided into three groups (n = 6/group): control group received 0.7 mL of water, kefir group received 0.7 mL/day of kefir, (normodose), and Hkefir group received 3.5 mL/day of kefir (fivefold higher dose). Feeding was carried out by gavage. The animals were housed in individual cages and maintained under standard conditions for 4 weeks. Results: The normodose and high-dose of kefir supplementation did not harm the animals since growth, hematology and blood chemistry in rats, as well as the potential pathogenicity in tissues were within normal limits, demonstrating that consumption of normodose and highdose of kefir are safe. In addition, administration of the normodose of kefir reduced cholesterol levels and improved the intestinal mucosa of the rats. Conclusion: These results demonstrate that the consumption of kefir is safe. Importantly, while damages are not seen for the high-dose, the normodose consumption is recommended due to the pronounced beneficial effects, as safety is concerned (AU)

Introducción: El kéfir es obtenido por fermentación de la leche con una población microbiana compleja presente en sus granos. Al consumo de kéfir se le atribuyen múltiples efectos beneficiosos sobre la salud. Objetivo: Evaluar la toxicidad subcrónica del kéfir en ratas Wistar, administrado por vía oral en dosis normal (normodosis) y sobredosis. Se evaluaron además, los parámetros de peso corporal, hematología, química sanguínea, translocación bacteriana e integridad de la mucosa intestinal. Métodos: Se conformaron tres grupos de seis animales de manera aleatoria: grupo control, recibió 0,7 mL de agua; grupo kéfir recibió 0,7 mL/día de kéfir (normodosis) y grupo Hkéfir recibió 3,5 mL/día de kéfir (dosis cinco veces superior). La administración se llevó a cabo mediante sonda. Los animales se alojaron individualmente, y se mantuvieron bajo las mismas condiciones de manejo y alimentación durante 4 semanas. Resultados: La administración de kéfir en dosis normal y sobredosis no afectó los parámetros evaluados en los animales, el peso corporal, indicadores hematológicos, de química sanguínea, y la patogenicidad potencial en los tejidos se encontraron dentro de límites normales, lo que demostró que el consumo de kéfir en dosis normal y sobredosis es seguro. Además, se evidenció que la administración de normodosis de kéfir redujo los niveles de colesterol y mejoró la mucosa intestinal de las ratas. Conclusión: Se demostró que el consumo de kéfir es seguro. Destacar que, la administración de sobredosis no evidenció daños, no obstante, se recomienda el consumo de normodosis, debido a los marcados efectos beneficiosos y de seguridad (AU)