Phenotypic heterogeneity and kidney tropism of Klebsiella pneumoniae clinical urinary tract infection isolates

Urinary tract infections (UTIs) are a significant public health burden that impact millions of people every year and are highly prevalent among in hospital-acquired infections. Klebsiella pneumoniae is the second most common cause of UTIs after uropathogenic Escherichia coli (UPEC). Thus far, the molecular mechanisms underlying pathogenesis is better understood in UPEC than K. pneumoniae . UPEC is known to have fitness factors such as fimbrial adhesion and evasion of complement-mediated killing. In other infection types, K. pneumoniae fitness has been associated with mucoidy and diverse capsular serotypes. To establish K. pneumoniae virulence factors contributing to UTI, we examined how environmental cues regulate urovirulence-associated phenotypes in clinical K. pneumoniae UTI strains. These factors included capsular polysaccharide properties, hemagglutination, serum resistance, adherence to bladder epithelial cells, and in vivo fitness. We found that clinical K. pneumoniae UTI isolates phenotypes are highly heterogeneous and can change in response to human urine. Despite K. pneumoniae clinical isolates presenting heterogeneous fitness properties, all similarly colonize the urinary tract. These results suggest that additional fitness factors contribute to K. pneumoniae uropathogenesis. Identifying these shared fitness factors will provide mechanistic insights into Klebsiella uropathogenesis and reveal candidate therapeutic targets.