PLoS ONE (Jan 2015)

Diet- and Genetically-Induced Obesity Differentially Affect the Fecal Microbiome and Metabolome in Apc1638N Mice.

  • Anna C Pfalzer,
  • Paula-Dene C Nesbeth,
  • Laurence D Parnell,
  • Lakshmanan K Iyer,
  • Zhenhua Liu,
  • Anne V Kane,
  • C-Y Oliver Chen,
  • Albert K Tai,
  • Thomas A Bowman,
  • Martin S Obin,
  • Joel B Mason,
  • Andrew S Greenberg,
  • Sang-Woon Choi,
  • Jacob Selhub,
  • Ligi Paul,
  • Jimmy W Crott

DOI
https://doi.org/10.1371/journal.pone.0135758
Journal volume & issue
Vol. 10, no. 8
p. e0135758

Abstract

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Obesity is a risk factor for colorectal cancer (CRC), and alterations in the colonic microbiome and metabolome may be mechanistically involved in this relationship. The relative contribution of diet and obesity per se are unclear. We compared the effect of diet- and genetically-induced obesity on the intestinal microbiome and metabolome in a mouse model of CRC. Apc1638N mice were made obese by either high fat (HF) feeding or the presence of the Leprdb/db (DbDb) mutation. Intestinal tumors were quantified and stool microbiome and metabolome were profiled. Genetic obesity, and to a lesser extent HF feeding, promoted intestinal tumorigenesis. Each induced distinct microbial patterns: taxa enriched in HF were mostly Firmicutes (6 of 8) while those enriched in DbDb were split between Firmicutes (7 of 12) and Proteobacteria (5 of 12). Parabecteroides distasonis was lower in tumor-bearing mice and its abundance was inversely associated with colonic Il1b production (p<0.05). HF and genetic obesity altered the abundance of 49 and 40 fecal metabolites respectively, with 5 in common. Of these 5, adenosine was also lower in obese and in tumor-bearing mice (p<0.05) and its concentration was inversely associated with colonic Il1b and Tnf production (p<0.05). HF and genetic obesity differentially alter the intestinal microbiome and metabolome. A depletion of adenosine and P.distasonis in tumor-bearing mice could play a mechanistic role in tumor formation. Adenosine and P. distasonis have previously been shown to be anti-inflammatory in the colon and we postulate their reduction could promote tumorigenesis by de-repressing inflammation.