Gut Microbes (Dec 2023)

Co-cultivation is a powerful approach to produce a robust functionally designed synthetic consortium as a live biotherapeutic product (LBP)

  • Fabienne Kurt,
  • Gabriel E. Leventhal,
  • Marianne Rebecca Spalinger,
  • Laura Anthamatten,
  • Philipp Rogalla von Bieberstein,
  • Carmen Menzi,
  • Markus Reichlin,
  • Marco Meola,
  • Florian Rosenthal,
  • Gerhard Rogler,
  • Christophe Lacroix,
  • Tomas de Wouters

DOI
https://doi.org/10.1080/19490976.2023.2177486
Journal volume & issue
Vol. 15, no. 1

Abstract

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ABSTRACTThe success of fecal microbiota transplants (FMT) has provided the necessary proof-of-concept for microbiome therapeutics. Yet, feces-based therapies have many associated risks and uncertainties, and hence defined microbial consortia that modify the microbiome in a targeted manner have emerged as a promising safer alternative to FMT. The development of such live biotherapeutic products has important challenges, including the selection of appropriate strains and the controlled production of the consortia at scale. Here, we report on an ecology- and biotechnology-based approach to microbial consortium construction that overcomes these issues. We selected nine strains that form a consortium to emulate the central metabolic pathways of carbohydrate fermentation in the healthy human gut microbiota. Continuous co-culturing of the bacteria produces a stable and reproducible consortium whose growth and metabolic activity are distinct from an equivalent mix of individually cultured strains. Further, we showed that our function-based consortium is as effective as FMT in counteracting dysbiosis in a dextran sodium sulfate mouse model of acute colitis, while an equivalent mix of strains failed to match FMT. Finally, we showed robustness and general applicability of our approach by designing and producing additional stable consortia of controlled composition. We propose that combining a bottom-up functional design with continuous co-cultivation is a powerful strategy to produce robust functionally designed synthetic consortia for therapeutic use.

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