Project description:Comparison of oral collection methods for studies of microbiota

Project description:Comparison of Fecal Collection Methods for Microbiome and Metabolomics Studies

Project description:Comparison of the fecal microbiota during variable collection and storage methods

Project description:Comparison of collection methods for stimulated salivary microbiota

Project description:Gut microbiota impacts responses to immune checkpoint inhibitors (ICI). High level of Faecalibacterium prausnitzii has been associated with a positive response to ICI in multiple cancer types. Here, we show in two independent cohorts of patients with non-small cell lung cancer and advanced melanoma that high level of F. prausnitzii at baseline is positively associated with a better clinical response to ICI. In a mouse preclinical model, we show that the F. prausnitzii strain EXL01, already in clinical development for Inflammatory Bowel Disease, restores the anti-tumor response to ICI in the context of antibiotic-induced microbiota perturbation at clinical and tumor transcriptomics level. In vitro, EXL01 strain enhances T cell activation in the presence of ICI. Interestingly, oral administration of EXL01 strain is not associated with a change in fecal microbiota diversity or composition suggesting a direct effect on immune cells in the small intestine.

Project description:Comparison of oral microbiota collected using multiple methods: Recommendations for new epidemiological studies

Project description:Comparison of collection methods for metagenomics

Project description:Inappropriate cross talk between mammals and their gut microbiota may trigger intestinal inflammation and drive extra-intestinal immune-mediated diseases. Studies with germ-free or gnotobiotic animals represent the gold standard for research on bacterial-host interaction but they are not readily accessible to the wide scientific community. We aimed at refining a protocol that in a robust manner would deplete murine intestinal microbiota and prove to have significant biologic validity. Previously published protocols for depleting mice of their intestinal microbiota by administering broad-spectrum antibiotics in drinking water were difficult to reproduce. We show that twice daily delivery of antibiotics by gavage depleted mice of their cultivable fecal microbiota and reduced the fecal bacterial DNA load by approximately 400 fold while ensuring the animals’ health. Mice subjected to the protocol for 17 days displayed enlarged ceca, reduced Peyer’s patches and small spleens. Antibiotic treatment significantly reduced the expression of antimicrobial factors and altered the expression of 517 genes in total in the colonic epithelium. Genes involved in cell cycle were significantly altered concomitant with reduced epithelial proliferative activity in situ assessed by Ki-67 expression, suggesting that commensal microbiota drives cellular proliferation in colonic epithelium. We present a robust protocol for depleting mice of their cultivatable intestinal microbiota with antibiotics by gavage and show that the biological effect of this depletion is phenotypic characteristics and epithelial gene expression profile similar to those of germ-free mice. Comparison of genome-wide gene expression of colon intestinal epithelial cells from mice subjected to microbiota depletion protocol against to control mice.

Project description:Fecal microbiota in Iranian recurrent CDI patients

Project description:This study aimed to analyze changes in gut microbiota composition in mice after transplantation of fecal microbiota (FMT, N = 6) from the feces of NSCLC patients by analyzing fecal content using 16S rRNA sequencing, 10 days after transplantation. Specific-pathogen-free (SPF) mice were used for each experiments (N=4) as controls.