Pathogenicity Islands PAPI-1 and PAPI-2 Contribute Individually and Synergistically to the Virulence of Pseudomonas aeruginosa Strain PA14

Pseudomonas aeruginosa is a leading cause of hospital-acquired pneumonia and severe chronic lung infections in cystic fibrosis patients. The reference strains PA14 and PAO1 have been studied extensively, revealing that PA14 is more virulent than PAO1 in diverse infection models. Among other factors,...

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Published in:Infection and Immunity 2010-04, Vol.78 (4), p.1437-1446
Main Authors: Harrison, Ewan M, Carter, Melissa E.K, Luck, Shelley, Ou, Hong-Yu, He, Xinyi, Deng, Zixin, O'Callaghan, Chris, Kadioglu, Aras, Rajakumar, Kumar
Format: Article
Language:English
Subjects:
Animals
Bacteremia - microbiology
Bacterial Proteins - genetics
Bacterial Proteins - physiology
Bacteriology
Biological and medical sciences
Disease Models, Animal
Female
Fundamental and applied biological sciences. Psychology
Genomic Islands
Mice
Mice, Inbred BALB C
Microbiology
Miscellaneous
Molecular Pathogenesis
Multigene Family
Pneumonia, Bacterial - microbiology
Pseudomonas aeruginosa - genetics
Pseudomonas aeruginosa - pathogenicity
Pseudomonas Infections - microbiology
Sequence Deletion
Virulence Factors - genetics
Virulence Factors - physiology
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Summary:Pseudomonas aeruginosa is a leading cause of hospital-acquired pneumonia and severe chronic lung infections in cystic fibrosis patients. The reference strains PA14 and PAO1 have been studied extensively, revealing that PA14 is more virulent than PAO1 in diverse infection models. Among other factors, this may be due to two pathogenicity islands, PAPI-1 and PAPI-2, both present in PA14 but not in PAO1. We compared the global contributions to virulence of PAPI-1 and PAPI-2, rather than that of individual island-borne genes, using murine models of acute pneumonia and bacteremia. Three isogenic island-minus mutants (PAPI-1-minus, PAPI-2-minus, and PAPI-1-minus, PAPI-2-minus mutants) were compared with the wild-type parent strain PA14 and with PAO1. Our results showed that both islands contributed significantly to the virulence of PA14 in acute pneumonia and bacteremia models. However, in contrast to the results for the bacteremia model, where each island was found to contribute individually, loss of the 108-kb PAPI-1 island alone was insufficient to measurably attenuate the mutant in the acute pneumonia model. Nevertheless, the double mutant was substantially more attenuated, and exhibited a lesser degree of virulence, than even PAO1 in the acute pneumonia model. In particular, its ability to disseminate from the lungs to the bloodstream was markedly inhibited. We conclude that both PAPI-1 and PAPI-2 contribute directly and synergistically in a major way to the virulence of PA14, and we suggest that analysis of island-minus strains may be a more appropriate way than individual gene knockouts to assess the contributions to virulence of large, horizontally acquired segments of DNA.
ISSN:0019-9567
1098-5522
DOI:10.1128/IAI.00621-09