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Unusual properties of catalase A (KatA) of Pseudomonas aeruginosa PA14 are associated with its biofilm peroxide resistance
Authors:Shin Dong-Ho  Choi Young-Seok  Cho You-Hee
Institution:Department of Life Science, Sogang University, Seoul 121-742, Republic of Korea.
Abstract:Pseudomonas aeruginosa is a ubiquitous environmental bacterium whose major catalase (KatA) is highly stable, extracellularly present, and required for full virulence as well as for peroxide resistance in planktonic and biofilm states. Here, we dismantled the function of P. aeruginosa KatA (KatA(Pa)) by comparing its properties with those of two evolutionarily related (clade 3 monofunctional) catalases from Bacillus subtilis (KatA(Bs)) and Streptomyces coelicolor (CatA(Sc)). We switched the coding region for KatA(Pa) with those for KatA(Bs) and CatA(Sc), expressed the catalases under the potential katA-regulatory elements in a P. aeruginosa PA14 katA mutant, and verified their comparable protein levels by Western blot analysis. The activities of KatA(Bs) and CatA(Sc), however, were less than 40% of the KatA(Pa) activity, suggestive of the difference in intrinsic catalatic activity or efficiency for posttranslational activity modulation in P. aeruginosa. Furthermore, KatA(Bs) and CatA(Sc) were relatively susceptible to proteinase K, whereas KatA(Pa) was highly stable upon proteinase K treatment. As well, KatA(Bs) and CatA(Sc) were undetectable in the extracellular milieu. Nevertheless, katA(Bs) and catA(Sc) fully rescued the peroxide sensitivity and osmosensitivity of the katA mutant, respectively. Both catalase genes rescued the attenuated virulence of the katA mutant in mouse acute infection and Drosophila melanogaster models. However, the peroxide susceptibility of the katA mutant in a biofilm growth state was rescued by neither katA(Bs) nor catA(Sc). Based on these results, we propose that the P. aeruginosa KatA is highly stable compared to the two major catalases from gram-positive bacteria and that its unique properties involving metastability and extracellular presence may contribute to the peroxide resistance of P. aeruginosa biofilm and presumably to chronic infections.
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