Rapid evolution ofKlebsiella pneumoniaebiofilmsin vitrodelineates adaptive changes selected during infection

Abstract

AbstractBiofilm formation facilitates infection by the opportunistic pathogenKlebsiella pneumoniae, primarily through indwelling medical devices. Here, we address howK. pneumoniaecan increase its biofilm capacity by experimental evolution of surface-attached biofilms to mimic catheter-associated infections. We observed rapid convergent evolution that altered or abolished capsule, modified the fimbrial adhesin MrkD, or increased production of fimbriae and cellulose via upregulated c-di-GMP-dependent pathways. However, evolutionary trajectories and resulting phenotypes showed strain differences, illustrating the importance of genetic background on biofilm adaptation. Multiple biofilm aspects, such as early attachment, biofilm topology, surface preference, and extracellular matrix composition, were affected in a mutation-specific manner. Acute virulence was linked to the underlying genetic change rather than the overall biofilm capacity. Single mutations conferring hypermucoidy and c-di-GMP-related changes extensively overlapped with previously identified adaptive changes in UTI and wound isolates, confirming biofilm as an important selective traitin vivo.