Abstract
Previous studies have suggested roles of probiotics and prebiotics on body weight management and intestinal function. Here, the effects of a dietary prebiotic, inulin (50 mg/g diet), and probiotic, Bfidobacterium animalis subsp. lactis (Bb12) (final dose verified at 105 colony forming unit (cfu)/g diet, comparable to human consumption), were determined separately and in combination in mice using cellulose-based AIN-93G diets under conditions allowed for the growth of commensal bacteria. Continuous consumption of Bb12 and/or inulin did not affect food intake or body, liver, and spleen weights of young and adult mice. Fecal bile acid profiles were determined by nanoESI-MS/MS tandem mass spectrometry. In the presence of inulin, more bacterial deconjugation of taurine from primary bile acids was observed along with an increased cecal weight. Consumption of inulin in the absence or presence of Bb12 also increased the villus cell height in the proximal colon along with a trend of higher bile acid sulfation by intestinal cells. Feeding Bb12 alone at the physiological dose did not affect bile acid deconjugation and had little effect on other intestinal indices. Although interleukin (IL)10-null mice are susceptible to enterocolitis, they maintained the same body weight as the wild type mice under our specific pathogen-free housing condition and showed no signs of inflammation. Nevertheless, they had smaller cecum suggesting a mildly compromised intestinal development even before the disease manifestation. Our results are consistent with the notion that dietary factors such as prebiotics play important roles in the growth of intestinal microbiota and may impact on the intestinal health. In addition, fecal bile acid profiling could potentially be a non-invasive tool in monitoring the intestinal environment.
Highlights
The symbiotic relationship between the host and intestinal microbiota has been extensively studied, in part because of its implications in intestinal health [1,2,3]
We examined the biological effects of dietary pre- and probiotics separately and in combination in wildtype and IL10-null mice
In Aim 1, food intake, body weight and the weight of liver and spleen were not affected by isocaloric dietary supplementation of pre- and/or probiotics in young and adult mice, suggesting that caloric density, rather than pre- or probiotics per se, is a main determinant of body weight
Summary
The symbiotic relationship between the host and intestinal microbiota has been extensively studied, in part because of its implications in intestinal health [1,2,3]. To promote the development of beneficial microbiota in the intestine, prebiotics and probiotics such as inulin (fructooligosaccharide) and Bb12 Inulin is digested mainly by cecal microbiota after passing through small intestine [4,5], and was shown to stimulate the growth of bifidobacteria consistently [6,7,8,9,10]. The first aim of the study was to determine whether pre- and probiotics affect body weight, organ weight, and intestinal histology in young and adult mice under ad libitum feeding condition. Animal studies allow for the preparation of isocaloric pre- and probiotics-containing diets. Continuous monitoring of food intake and body weight is possible in animal models, which helps to address long-term effect, if any, on body weight and organ development
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