Journal ArticleDOI
Composition and energy harvesting capacity of the gut microbiota: relationship to diet, obesity and time in mouse models
Eileen F. Murphy,Paul D. Cotter,Paul D. Cotter,Selena Healy,Tatiana M. Marques,Tatiana M. Marques,Orla O'Sullivan,Orla O'Sullivan,Fiona Fouhy,Siobhan F. Clarke,Siobhan F. Clarke,Paul W. O'Toole,Eamonn Martin Quigley,Catherine Stanton,Catherine Stanton,Paul Ross,Paul Ross,Robert M. O'Doherty,Robert M. O'Doherty,Fergus Shanahan +19 more
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TLDR
The relationship between the microbial composition and energy harvesting capacity is more complex than previously considered and the possibility of microbial adaptation to diet and time should be considered in future studies.Abstract:
Background and Aims Increased efficiency of energy harvest, due to alterations in the gut microbiota (increased Firmicutes and decreased Bacteroidetes ), has been implicated in obesity in mice and humans. However, a causal relationship is unproven and contributory variables include diet, genetics and age. Therefore, we explored the effect of a high-fat (HF) diet and genetically determined obesity ( ob/ob ) for changes in microbiota and energy harvesting capacity over time. Methods Seven-week-old male ob/ob mice were fed a low-fat diet and wild-type mice were fed either a low-fat diet or a HF-diet for 8 weeks (n=8/group). They were assessed at 7, 11 and 15 weeks of age for: fat and lean body mass (by NMR); faecal and caecal short-chain fatty acids (SCFA, by gas chromatography); faecal energy content (by bomb calorimetry) and microbial composition (by metagenomic pyrosequencing). Results A progressive increase in Firmicutes was confirmed in both HF-fed and ob/ob mice reaching statistical significance in the former, but this phylum was unchanged over time in the lean controls. Reductions in Bacteroidetes were also found in ob/ob mice. However, changes in the microbiota were dissociated from markers of energy harvest. Thus, although the faecal energy in the ob/ob mice was significantly decreased at 7 weeks, and caecal SCFA increased, these did not persist and faecal acetate diminished over time in both ob/ob and HF-fed mice, but not in lean controls. Furthermore, the proportion of the major phyla did not correlate with energy harvest markers. Conclusion The relationship between the microbial composition and energy harvesting capacity is more complex than previously considered. While compositional changes in the faecal microbiota were confirmed, this was primarily a feature of high-fat feeding rather than genetically induced obesity. In addition, changes in the proportions of the major phyla were unrelated to markers of energy harvest which changed over time. The possibility of microbial adaptation to diet and time should be considered in future studies.read more
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Role of microbiota-derived lipopolysaccharide in adipose tissue inflammation, adipocyte size and pyroptosis during obesity
TL;DR: The experimental evidence shows that LPS is involved in the transition of macrophages from the M2 to the M1 phenotype and may induce a highly inflammatory type of programmed cell death (i.e. pyroptosis) that occurs after infection with intracellular pathogens.
Journal ArticleDOI
Targeting the Microbiota to Address Diet-Induced Obesity: A Time Dependent Challenge
Siobhan F. Clarke,Eileen F. Murphy,Orla O'Sullivan,R. Paul Ross,R. Paul Ross,Paul W. O'Toole,Fergus Shanahan,Paul D. Cotter,Paul D. Cotter +8 more
TL;DR: Comparing the gut microbial populations at the early relative to the late stages of intervention using a high throughput sequencing-based analysis reveals several differences in microbiota composition over the intervening period, highlighting the resilience of the gut microbiota.
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Current trends in marine algae polysaccharides: The digestive tract, microbial catabolism, and prebiotic potential
TL;DR: A new perspective is envisioned on the sustainability-promoting applications of MAPs as prebiotics in the functional food and pharmaceutical industries and novel insights into the specific fermentation behavior for the observed human gut benefits are offered.
Journal ArticleDOI
Correlations of Fecal Metabonomic and Microbiomic Changes Induced by High-fat Diet in the Pre-Obesity State.
TL;DR: It is found that one-week HFD feeding already caused significant changes in rat fecal metabonome and such changes sustained throughout 81-days feeding with the host and gut microbiota co-metabolites clearly featured, implying enhancement of gut absorptions.
The gut microbiota of Colombians differs from that of Americans, Europeans and Asians
TL;DR: The gut microbiota of Colombian adults is described for the first time via the pyrosequencing of the 16S ribosomal DNA (rDNA), comparing it with results obtained in Americans, Europeans, Japanese and South Koreans, and testing the generality of previous observations concerning changes in Firmicutes and Bacteroidetes with increasing body mass index (BMI).
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Microbial ecology: Human gut microbes associated with obesity
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Paul B. Eckburg,Elisabeth M. Bik,Charles N. Bernstein,Elizabeth Purdom,Les Dethlefsen,Michael Sargent,Steven R. Gill,Karen E. Nelson,David A. Relman,David A. Relman,David A. Relman +10 more
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