Translating in vitro gut microbiota models to human context: compositional correlations under dietary fiber intervention
article
Introduction: Large interindividual variation in human gut microbiota composition and its response to interventions limits the development of novel microbiota-targeted supplements. In vitro models reflecting this interindividual variation and predicting individual in vitro microbiota responses would allow for the assessment of the potential efficacy of such interventions. Methods: Here, we investigated whether in vitro microbiota modulation by a dietary fiber mixture is translatable to in vivo microbiota outcomes. A 12-week double blind, randomized, placebo-controlled, crossover study with a dietary fiber mixture of acacia gum (AG) and carrot powder was performed in healthy volunteers (N = 54, 45-70 years, BMI 27.3 ± 1.4 kg/m2). The in vitro platform utilized fecal samples from the same individuals who participated in the in vivo study. Results: A significant effect on microbiota composition was shown in vivo, although with strong individual variation. The fiber intervention was mimicked in vitro by exposing each individuals' baseline microbiota to the same dietary fiber as used for the 12-weeks in vivo intervention. A significant correlation was shown between the in vitro and human fecal microbiota composition after 8- and 12-weeks intervention (p = 0.003 and p = 0.0107, respectively). Microbial taxa responding to the intervention in vitro and in vivo also showed clear overlap (p = 0.002). Discussion: These results demonstrate that in vitro models may enable pre-study selection of donors whose microbiotas respond to a specific intervention.
TNO Identifier
1023507
Source
Frontiers in Microbiology, 16
Article nr.
17808906