, thi-phuong-thao pham, niokhor Dione, issa isaac ngom, camille Valles, Dipankar Bachar, Didier Raoult & Jean christophe Lagier Recently, cocktail of bacteria were proposed in order to treat Clostridium difficile infection (cDi), but these bacteriotherapies were selected more by chance than experimentation. We propose to comprehensively explore the gut microbiota of patients with cDi compared to healthy donors in order to propose a consortium of bacteria for treating C. difficile. We compared stool samples composition from 11 CDI patients and 8 healthy donors using two techniques: metagenomics, 16S V3-V4 region amplification and sequencing and culturomics, high throughout culture using six culture conditions and MALDI-TOF identification. By culturomics, we detected 170 different species in the CDI group and 275 in the control group. Bacteroidetes were significantly underrepresented in the CDI group (p = 0.007). By metagenomics, 452 different operational taxonomic units assigned to the species level were detected in the CDI group compared to 522 in the control group. By these two techniques, we selected 37 bacteria only found in control group in more than 75% of the samples and/or with high relative abundance, 10 of which have already been tested in published bacteriotherapies against CDI, and 3 of which (Bifidobacterium adolescentis, Bifidobacterium longum and Bacteroides ovatus) have been detected by these two techniques. this controlled number of bacteria could be administrated orally in a non-invasive way in order to treat cDi. Clostridium difficile is responsible for human diseases ranging from mild diarrhea to pseudomembranous colitis 1. C. difficile was responsible for almost 30,000 deaths in the USA in 2011 2 , illustrating the high morbimortality of the disease and an increase in the number of cases. Gut dysbiosis is the triggering factor of C. difficile infection (CDI) 3,4. One of the current treatments, fecal microbiota transplantation (FMT), is based on the restoration of a healthy microbiota 5. FMT demonstrated its effectiveness in a randomized study 5 with 81% of recovery after treatment. FMT is currently recommended for recurrent CDI 6. FMT has also demonstrated its superiority compared with antibiotics as first-line treatment for severe CDI 7. Nevertheless, FMT using whole stool samples presents some limitations. For instance, despite an important pathogen screening among donors 6 , pathogen transmission through entire stool donations remains possible 8,9. Oral administration by capsules has been proposed 10 but usual methods of administration (nasogastric tube, colonoscopy…) remain invasive 11. Rare but serious adverse events correlated to these routes of administration have been reported: aspirating pneumonia, rectal perforation 11. Although there is no formal evidence, some gut bacteria have been associated to colorectal cancer 12 or obesity 13. An unexplained gain of 8.5 points of BMI following FMT has been reported 14. It is therefore desirable to know exactly which bacteria are transferred to...
