Project description:Clostridium rectalis genome

Project description:D-galactose orally intake ameliorate DNCB-induced atopic dermatitis by modulating microbiota composition and quorum sensing. The increased abundance of bacteroidetes and decreased abundance of firmicutes was confirmed. By D-galactose treatment, Bacteroides population was increased and prevotella, ruminococcus was decreased which is related to atopic dermatitis.

Project description:Agathobacter rectalis strain:H10.1 Genome sequencing

Project description:Background: The oral anaerobe Prevotella melaninogenica is enriched in the lungs of people with cystic fibrosis (pwCF), yet its functional impact on respiratory tract homeostasis remains incompletely understood. Prior studies identified immune modulatory effects following lung exposure to Prevotella, but the relevance of these findings for CF infections is unknown. Methods: The impact of P. melaninogenica on infection with the CF pathogen Staphylococcus aureus was evaluated using a mouse lung infection model and human respiratory tract cystic fibrosis transmembrane conductance regulator (CFTR) mutant and isogenic wild-type (WT)-corrected CFBE41o- epithelial cells. RNA-sequencing was performed to compare Prevotella-induced signaling programs in WT-corrected versus CFTR mutant cells. Results: P. melaninogenica significantly reduced S. aureus lung infection, which was associated with elevated S. aureus killing by lung neutrophils and impaired S. aureus adherence to epithelial cells. Live or heat-killed Prevotella were sufficient to mediate these effects, which were dependent on the toll-like receptor TLR2. Prevotella impairment of S. aureus adherence also required CFTR function, as this effect was lost in CFTR mutant cells but restored by CFTR modulator therapy. RNA-sequencing identified several antibacterial defense pathways selectively upregulated by Prevotella in WT corrected epithelial cells, correlating with higher IL-8 and IL-6 cytokine production. Conclusions: P. melaninogenica enhanced neutrophil and epithelial defense against S. aureus, but these benefits were lost with CFTR dysfunction. CFTR modulator therapy rescued Prevotella responsiveness in respiratory epithelial cells, highlighting the potential for synergistic effects of host-microbiome interactions and CFTR targeted therapies.

Project description:Role of iron in gene regulation in Prevotella intermedia

Project description:Agathobacter rectalis alleviates microglia-mediated neuroinflammation

Project description:Agathobacter rectalis alleviates microglia-mediated neuroinflammation

Project description:Gut microbiota participates in diverse metabolic and homeostatic functions related to health and well-being. Individual variation in its composition depends on many factors including dietary factors. We profiled enzymatic activity of fecal microbiota in 63 healthy adult individuals using metaproteomics, and identified Bacteroides and Prevotella –derived microbial CAZy (carbohydrate-active) enzymes involved in glycan foraging. One particular profile with many Bacteroides-derived CAZy was identified in one-third of subjects (n=20), and it associated with high abundancy of Bacteroides in most subjects. In other subjects (n=8) with dietary parameters similar to former, microbiota showed intense expression of Prevotella-derived CAZy including exo−beta−(1,4)−xylanase, xylan-1,4−beta−xylosidase, alpha−L−arabinofuranosidase and several other CAZy belonging to glycosyl hydrolase families involved in digestion of complex plant-derived polysaccharides. This associated invariably with robust representation of Prevotella in gut microbiota, while subjects with intermediate representation of Prevotella showed no CAZy profile. Identification of Bacteroides- and Prevotella-derived CAZy in microbiota proteome and their association with robust differences in microbiota composition, the latter with exceptionally high Prevotella abundancy in the gut, are in evidence of individual variation in metabolic adaptation of gut microbiota with an impact on colonizing competence.

Project description:We performed shotgun proteomics on the bacteria Prevotella brevis GA33 and Prevotella ruminicola 23. We did this for two types of samples (cell extract and cell membrane) and using two methods (data-dependent and data-independent acquisition).

Project description:Wild type Prevotella intermedia OMA14 strain (V3203) was used to compare to the OxyR-deficient strain (V3147).