PLoS ONE (Jan 2014)

Death and transfiguration in static Staphylococcus epidermidis cultures.

  • Christoph Schaudinn,
  • Paul Stoodley,
  • Luanne Hall-Stoodley,
  • Amita Gorur,
  • Jonathan Remis,
  • Siva Wu,
  • Manfred Auer,
  • Stefan Hertwig,
  • Debbie Guerrero-Given,
  • Fen Ze Hu,
  • Garth D Ehrlich,
  • John William Costerton,
  • Douglas H Robinson,
  • Paul Webster

DOI
https://doi.org/10.1371/journal.pone.0100002
Journal volume & issue
Vol. 9, no. 6
p. e100002

Abstract

Read online

The overwhelming majority of bacteria live in slime embedded microbial communities termed biofilms, which are typically adherent to a surface. However, when several Staphylococcus epidermidis strains were cultivated in static liquid cultures, macroscopic aggregates were seen floating within the broth and also sedimented at the test tube bottom. Light- and electron microscopy revealed that early-stage aggregates consisted of bacteria and extracellular matrix, organized in sheet-like structures. Perpendicular under the sheets hung a network of periodically arranged, bacteria-associated strands. During the extended cultivation, the strands of a subpopulation of aggregates developed into cross-connected wall-like structures, in which aligned bacteria formed the walls. The resulting architecture had a compartmentalized appearance. In late-stage cultures, the wall-associated bacteria disintegrated so that, henceforth, the walls were made of the coalescing remnants of lysed bacteria, while the compartment-like organization remained intact. At the same time, the majority of strand-containing aggregates with associated culturable bacteria continued to exist. These observations indicate that some strains of Staphylococcus epidermidis are able to build highly sophisticated structures, in which a subpopulation undergoes cell lysis, presumably to provide continued access to nutrients in a nutrient-limited environment, whilst maintaining structural integrity.