Biochemical and Cellular Characterization and Inhibitor Discovery of Pseudomonas aeruginosa 15-Lipoxygenase

JD Deschamps, AF Ogunsola, JB Jameson… - Biochemistry, 2016 - ACS Publications
JD Deschamps, AF Ogunsola, JB Jameson, A Yasgar, BA Flitter, CJ Freedman, JA Melvin
Biochemistry, 2016ACS Publications
Pseudomonas aeruginosa is an opportunistic pathogen that can cause nosocomial and
chronic infections in immunocompromised patients. P. aeruginosa secretes a lipoxygenase,
LoxA, but the biological role of this enzyme is currently unknown. LoxA is poorly similar in
sequence to both soybean LOX-1 (s15-LOX-1) and human 15-LOX-1 (37 and 39%,
respectively) yet has kinetics comparably fast versus those of s15-LOX-1 (at pH 6.5, K cat=
181±6 s–1 and K cat/KM= 16±2 μM–1 s–1). LoxA is capable of efficiently catalyzing the …
Pseudomonas aeruginosa is an opportunistic pathogen that can cause nosocomial and chronic infections in immunocompromised patients. P. aeruginosa secretes a lipoxygenase, LoxA, but the biological role of this enzyme is currently unknown. LoxA is poorly similar in sequence to both soybean LOX-1 (s15-LOX-1) and human 15-LOX-1 (37 and 39%, respectively) yet has kinetics comparably fast versus those of s15-LOX-1 (at pH 6.5, Kcat = 181 ± 6 s–1 and Kcat/KM = 16 ± 2 μM–1 s–1). LoxA is capable of efficiently catalyzing the peroxidation of a broad range of free fatty acid (FA) substrates (e.g., AA and LA) with high positional specificity, indicating a 15-LOX. Its mechanism includes hydrogen atom abstraction [a kinetic isotope effect (KIE) of >30], yet LoxA is a poor catalyst against phosphoester FAs, suggesting that LoxA is not involved in membrane decomposition. LoxA also does not react with 5- or 15-HETEs, indicating poor involvement in lipoxin production. A LOX high-throughput screen of the LOPAC library yielded a variety of low-micromolar inhibitors; however, none selectively targeted LoxA over the human LOX isozymes. With respect to cellular activity, the level of LoxA expression is increased when P. aeruginosa undergoes the transition to a biofilm mode of growth, but LoxA is not required for biofilm growth on abiotic surfaces. However, LoxA does appear to be required for biofilm growth in association with the host airway epithelium, suggesting a role for LoxA in mediating bacterium–host interactions during colonization.
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