npj Biofilms and Microbiomes (Jul 2022)

Biofilm cultivation facilitates coexistence and adaptive evolution in an industrial bacterial community

  • Nathalie N. S. E. Henriksen,
  • Mads Frederik Hansen,
  • Heiko T. Kiesewalter,
  • Jakob Russel,
  • Joseph Nesme,
  • Kevin R. Foster,
  • Birte Svensson,
  • Gunnar Øregaard,
  • Jakob Herschend,
  • Mette Burmølle

DOI
https://doi.org/10.1038/s41522-022-00323-x
Journal volume & issue
Vol. 8, no. 1
pp. 1 – 8

Abstract

Read online

Abstract The majority of ecological, industrial and medical impacts of bacteria result from diverse communities containing multiple species. This diversity presents a significant challenge as co-cultivation of multiple bacterial species frequently leads to species being outcompeted and, with this, the possibility to manipulate, evolve and improve bacterial communities is lost. Ecological theory predicts that a solution to this problem will be to grow species in structured environments, which reduces the likelihood of competitive exclusion. Here, we explored the ability of cultivation in a structured environment to facilitate coexistence, evolution, and adaptation in an industrially important community: Lactococcus lactis and Leuconostoc mesenteroides frequently used as dairy starter cultures. As commonly occurs, passaging of these two species together in a liquid culture model led to the loss of one species in 6 of 20 lineages (30%). By contrast, when we co-cultured the two species as biofilms on beads, a stable coexistence was observed in all lineages studied for over 100 generations. Moreover, we show that the co-culture drove evolution of new high-yield variants, which compared to the ancestor grew more slowly, yielded more cells and had enhanced capability of biofilm formation. Importantly, we also show that these high-yield biofilm strains did not evolve when each species was passaged in monoculture in the biofilm model. Therefore, both co-culture and the biofilm model were conditional for these high-yield strains to evolve. Our study underlines the power of ecological thinking—namely, the importance of structured environments for coexistence—to facilitate cultivation, evolution, and adaptation of industrially important bacterial communities.