BACKGROUND: Interactions between the microbial flora of the intestine and the human host play a critical role inmaintaining intestinal health and in the pathophysiology of a wide variety of disorders such as antibiotic associated diarrhea, Clostridium difficile infection, and inflammatory bowel disease. Prebiotics can confer health benefits by beneficial effects on the intestinal microbiome, whereas antibiotics can disrupt the microbiome leading to diarrhea andother side effects. AIM: To compare the effects of the prebiotic, polysaccharopeptide from Trametes versicolor, to those of the antibiotic,amoxicillin, on the human gut microbiome METHODS:Twenty-four healthy volunteers were randomized to receive PSP, amoxicillin, or no treatment (control).Stool specimens were analyzed using bTEFAP microbial ecology methods on seven occasions over 8 weeks from each participant in the active treatment groups and on three occasions for the controls. RESULTS:Twenty-two of 24 participants completed the protocol. PSP led to clear and consistent microbiome changes consistent with its activity as a prebiotic. Despite the diversity of the human microbiome we noted strong microbiome clustering among subjects. Baseline microbiomes tended to remain stable and to overshadow the treatment effects.Amoxicillin treatment caused substantial microbiome changes most notably an increase in Escherichia/Shigella. Antibiotic associated changes persisted to the end of the study, 42 days after antibiotic therapy ended. CONCLUSIONS: The microbiomes of healthy individuals show substantial diversity but remain stable over time.The antibiotic amoxicillin alters the microbiome and recovery from this disruption can take several weeks. PSP from T. versicolor acts as a prebiotic to modulate human intestinal microbiome composition.
RCT Entities:
BACKGROUND: Interactions between the microbial flora of the intestine and the human host play a critical role inmaintaining intestinal health and in the pathophysiology of a wide variety of disorders such as antibiotic associated diarrhea, Clostridium difficile infection, and inflammatory bowel disease. Prebiotics can confer health benefits by beneficial effects on the intestinal microbiome, whereas antibiotics can disrupt the microbiome leading to diarrhea andother side effects. AIM: To compare the effects of the prebiotic, polysaccharopeptide from Trametes versicolor, to those of the antibiotic,amoxicillin, on the humangut microbiome METHODS: Twenty-four healthy volunteers were randomized to receive PSP, amoxicillin, or no treatment (control).Stool specimens were analyzed using bTEFAP microbial ecology methods on seven occasions over 8 weeks from each participant in the active treatment groups and on three occasions for the controls. RESULTS: Twenty-two of 24 participants completed the protocol. PSP led to clear and consistent microbiome changes consistent with its activity as a prebiotic. Despite the diversity of the human microbiome we noted strong microbiome clustering among subjects. Baseline microbiomes tended to remain stable and to overshadow the treatment effects.Amoxicillin treatment caused substantial microbiome changes most notably an increase in Escherichia/Shigella. Antibiotic associated changes persisted to the end of the study, 42 days after antibiotic therapy ended. CONCLUSIONS: The microbiomes of healthy individuals show substantial diversity but remain stable over time.The antibiotic amoxicillin alters the microbiome and recovery from this disruption can take several weeks. PSP from T. versicolor acts as a prebiotic to modulate human intestinal microbiome composition.
Authors: Frédéric Raymond; Amin A Ouameur; Maxime Déraspe; Naeem Iqbal; Hélène Gingras; Bédis Dridi; Philippe Leprohon; Pier-Luc Plante; Richard Giroux; Ève Bérubé; Johanne Frenette; Dominique K Boudreau; Jean-Luc Simard; Isabelle Chabot; Marc-Christian Domingo; Sylvie Trottier; Maurice Boissinot; Ann Huletsky; Paul H Roy; Marc Ouellette; Michel G Bergeron; Jacques Corbeil Journal: ISME J Date: 2015-09-11 Impact factor: 10.302
Authors: Seesandra V Rajagopala; Shibu Yooseph; Derek M Harkins; Kelvin J Moncera; Keri B Zabokrtsky; Manolito G Torralba; Andrey Tovchigrechko; Sarah K Highlander; Rembert Pieper; Leonard Sender; Karen E Nelson Journal: BMC Genomics Date: 2016-08-15 Impact factor: 3.969
Authors: Richard R Rodrigues; Renee L Greer; Xiaoxi Dong; Karen N DSouza; Manoj Gurung; Jia Y Wu; Andrey Morgun; Natalia Shulzhenko Journal: Front Microbiol Date: 2017-11-22 Impact factor: 5.640