Gut Microbiota Composition in Long-Remission Ulcerative Colitis is Close to a Healthy Gut Microbiota.

BACKGROUND: Microbiome studies report low gut microbial richness and diversity in ulcerative colitis (UC) patients. We explored whether UC patients who reach long-term clinical, endoscopic, and histological remission show a gut microbial ecosystem that is similar to healthy individuals. METHODS: We collected 184 stool samples from 111 individuals (UC patients in long remission, short remission, flare, and healthy control subjects). Microbiota was analyzed by amplicon sequencing (16S ribosomal RNA) and quantitative polymerase chain reaction for specific taxa. All UC remission patients were followed-up for 2 years. FINDINGS: A drop in species diversity and richness, underrepresentation of butyrate producers, and gain of potentially harmful bacteria were significantly detected in samples from disease-flare and short-remission patients. In contrast, Chao1 and Shannon indexes of diversity did not differ among patients in long remission and healthy control subjects. Long-remission patients also presented fecal bacterial composition closer to that in healthy control subjects. There was a positive correlation between Akkermansia muciniphila abundance and time in remission (rs = 0.53, P < .001). Logistic regression analysis showed that a high Shannon index (odds ratio, 4.83; 95% confidence interval, 1.5-20.6) or presence of A. muciniphila (odds ratio, 4.9; 95% confidence interval, 1.12-29.08) in fecal samples at entry was independently associated with clinical remission over a follow-up period of 24 months. INTERPRETATION: UC patients who achieve long-term remission show evidence of substantial recovery of the gut microbial ecosystem in terms of diversity and composition. Recovery may just reflect adequate control of inflammatory activity, but higher bacterial diversity or the presence of A. muciniphila in fecal samples predicts flare-free outcomes.

Microbiome studies have shown low gut microbial richness and diversity in ulcerative colitis patients. Patients who achieve long-term remission show evidence of substantial recovery of the gut microbial ecosystem in terms of diversity and composition.

Early Postoperative Endoscopic Recurrence in Crohn's Disease Is Characterised by Distinct Microbiota Recolonisation.

BACKGROUND AND AIMS: Intestinal microbiota dysbiosis is implicated in Crohn's disease [CD] and may play an important role in triggering postoperative disease recurrence [POR]. We prospectively studied faecal and mucosal microbial recolonisation following ileocaecal resection to identify the predictive value of recurrence-related microbiota. METHODS: Mucosal and/or faecal samples from 121 CD patients undergoing ileocaecal resection were collected at predefined time points before and after surgery. Ileal biopsies were collected from 39 healthy controls. POR was defined by a Rutgeerts score ≥i2b. The microbiota was evaluated by 16S rRNA sequencing. Prediction analysis was performed using C5.0 and Random Forest algorithms. RESULTS: The mucosa-associated microbiota in CD patients was characterised by a depletion of butyrate-producing species (false discovery rate [FDR] <0.01) and enrichment of Proteobacteria [FDR = 0.009] and Akkermansia spp. [FDR = 0.02]. Following resection, a mucosal enrichment of Lachnospiraceae [FDR <0.001] was seen in all patients but in POR patients, also Fusobacteriaceae [FDR <0.001] increased compared with baseline. Patients without POR showed a decrease of Streptococcaceae [FDR = 0.003] and Actinomycineae [FDR = 0.06]. The mucosa-associated microbiota profile had good discriminative power to predict POR, and was superior to clinical risk factors. At Month 6, patients experiencing POR had a higher abundance of taxa belonging to Negativicutes [FDR = 0.04] and Fusobacteria [FDR = 0.04] compared with patients without POR. CONCLUSIONS: Microbiota recolonisation after ileocaecal resection is different between recurrence and non-recurrence patients, with Fusobacteria as the most prominent player driving early POR. These bacteria involved in the early recolonisation and POR represent a promising therapeutic strategy in the prevention of disease recurrence.