The importance of the gut microbiota in human health and disease progression makes it a target for research in both the biomedical and nutritional fields. To date, a number of in vitro systems have been designed to recapitulate the gut microbiota of the colon ranging in complexity from the application of a single vessel to cultivate the community in its entirety, to multi-stage systems that mimic the distinct regional microbial communities that reside longitudinally through the colon. While these disparate types of in vitro designs have been employed previously, information regarding similarities and differences between the communities that develop within was less defined. Here, a comparative analysis of the population dynamics and functional production of short-chain fatty acids (SCFAs) was performed using the gut microbiota of the same donor cultured using a single vessel and a 3-stage colon system. The results found that the single vessel communities maintained alpha diversity at a level comparable to the distal regions of the 3-stage colon system. Yet, there was a marked difference in the type and abundance of taxa, particularly between families Enterobacteriaceae, Bacteroidaceae, Synergistaceae, and Fusobacteriaceae. Functionally, the single vessel community produced significantly less SCFAs compared to the 3-stage colon system. These results provide valuable information on how culturing technique effects gut microbial composition and function, which may impact studies relying on the application of an in vitro strategy. This data can be used to justify experimental strategy and provides insight on the application of a simplified versus complex study design. KEY POINTS : • A mature gut microbiota community can be developed in vitro using different methods. • Beta diversity metrics are affected by the in vitro culturing method applied. • The type and amount of short-chain fatty acids differed between culturing methods.
Keywords: 3-Stage colon system; Culturing techniques; Gut microbiota; Microbial communities; Single vessel culturing.