Project description:Animal probiotics feed additives metagenome

Project description:Gemcitabine treatment shifts the intestinal microbiota of PC mice towards an inflammatory profile which may worsen mucositis and side effects observed upon chemotherapy. We explored the effect of a specific probiotics blend administered, with or without gemcitabine treatment, to PC xenografted mice.

Project description:Purpose:Our data significantly advance understanding of Probiotics and Fructooligosaccharide regulatory mechanism in ileum of Taiping chicken Methods: Using RNA-seq analysis to study the gene expression in ileum tissue after Taiping chicken was given Probiotics and Fructooligosaccharide Results: A total of 164,629,826 and 149,883,266 raw reads were generated from the CT and MP_ FOS, respectively . After removing the interference data, about 164,028,872 and 149,364,852 clean reads were obtained Conclusions: through high-throughput sequencing of the six libraries from ileum of Taiping chicken, the expression level of mRNA has significant changes after given probiotics

Project description:Purpose:Our data significantly advance understanding of probiotic regulatory mechanism of miRNA in ileum of Taiping chicken Methods: Using RNA-seq analysis to study the gene expression in ileum tissue after Taiping chicken was given probiotics Results: A total of 164,629,826 and 156,180,764 raw reads were generated from the CT and MP, respectively. After removing the interference data, about 164,028,872 and 155,579,470 clean reads were obtained Conclusions: through high-throughput sequencing of the six libraries from ileum of Taiping chicken, the expression level of mRNA has significant changes after given probiotics

Project description:Analysis of changes in gene expression when probiotics are in the neonatal mouse gut (4 hrs) and after they had been excreted (24 hrs post-gavage)

Project description:Provide the modulation evidence of brain neuropeptidome by probiotics

Project description:Probiotic bacteria, specific representatives of bacterial species that are a common part of the human microbiota, are proposed to deliver health benefits to the consumer by modulation of intestinal function via largely unknown molecular mechanisms. To explore in vivo mucosal responses of healthy adults to probiotics, we obtained transcriptomes in an intervention study following a double-blind placebo-controlled cross-over design. In the mucosa of the proximal small intestine of healthy volunteers, probiotic strains from the species Lactobacillus acidophilus, L. casei and L. rhamnosus each induced differential gene regulatory networks and pathways in the human mucosa. Comprehensive analyses revealed that these transcriptional networks regulate major basal mucosal processes, and uncovered remarkable similarity to response profiles obtained for specific bioactive molecules and drugs. This study elucidates how intestinal mucosa of healthy humans perceive different probiotics and provides avenues for rationally designed tests of clinical applications. Keywords: mucosal response of healthy adult humans to lactic acid bacteria

Project description:HIV infection results in damage to the gastrointestinal (GI) tract, microbial translocation and immune activation, which are not completely ameliorated with suppression of viremia by antiretroviral (ARV) therapy. Furthermore, increased morbidity and mortality of ARV-treated HIV-infected individuals is associated with these dysfunctions. Thus, in order to enhance GI tract immunity, we treated SIV-infected pigtail macaques with ARVs supplemented with probiotics and prebiotics or with ARVs alone. In the colon, this synbiotic treatment resulted in increased expression of genes associated with antigen presenting cells (APCs), increased frequency and functionality of APCs, enhanced reconstitution and functionality of CD4+ T-cells and reduced fibrosis of lymphoid follicles. Thus, supplementing ARV treatment with synbiotic treatment in HIV-infected individuals may improve GI tract immunity and thereby mitigate inflammatory sequelae, ultimately improving prognosis. CD45+ (clone MB4-6D6) leukocytes were sorted from thawed colon samples from 4 ARV + probiotics animals and 4 ARV alone animals

Project description:Probiotic bacteria, specific representatives of bacterial species that are a common part of the human microbiota, are proposed to deliver health benefits to the consumer by modulation of intestinal function via largely unknown molecular mechanisms. To explore in vivo mucosal responses of healthy adults to probiotics, we obtained transcriptomes in an intervention study following a double-blind placebo-controlled cross-over design. In the mucosa of the proximal small intestine of healthy volunteers, probiotic strains from the species Lactobacillus acidophilus, L. casei and L. rhamnosus each induced differential gene regulatory networks and pathways in the human mucosa. Comprehensive analyses revealed that these transcriptional networks regulate major basal mucosal processes, and uncovered remarkable similarity to response profiles obtained for specific bioactive molecules and drugs. This study elucidates how intestinal mucosa of healthy humans perceive different probiotics and provides avenues for rationally designed tests of clinical applications. Keywords: mucosal response of healthy adult humans to lactic acid bacteria This study was set up according to a randomised double-blind cross-over placebo-controlled design. It contains transcriptional profiles from biopsies from 7 healthy individuals after oral intake of three different Lactobacillus species or placebo control. In total, this study includes data from 7 individuals x 4 treatments=28 arrays.

Project description:The hypocholesterolemic effect of probiotics has been observed, but the molecular mechanism of probiotic-host interaction is still obscure. In this study, DNA microarray technology was used to explore the gene expression profile of liver of hypercholesterolemic rats caused by administration of probiotic Lactobacillus casei Zhang, which can decrease the serum triglyceride, low-density lipoprotein cholesterol, hepatic cholesterol and triglyceride of hypercholesterolemic rats.