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Infection and Immunity, September 1999, p. 4443-4455, Vol. 67, No. 9
Department of Microbiology and Infectious
Diseases, University of Calgary Health Sciences Center, Calgary,
Alberta T2N 4N1,1 and Department of
Pediatrics, University of British Columbia, Vancouver, British
Columbia V5Z 4H4,2 Canada
Received 26 March 1999/Returned for modification 9 June
1999/Accepted 15 June 1999
Burkholderia cepacia is a frequent cause of respiratory
infections in cystic fibrosis patients. B. cepacia has been
shown to produce at least four siderophores which may play a role in the virulence of this organism. To characterize genes involved in the
synthesis of siderophores, Tn5-OT182 mutants were isolated in strain K56-2, which produces two siderophores, salicylic acid (SA)
and ornibactins. Two mutants were characterized that did not produce
zones on Chrome Azurol S agar in a commonly used assay to detect
siderophore activity. These mutants were determined to produce
sevenfold more SA than K56-2 yet did not produce detectable amounts of
ornibactins. These mutants, designated I117 and T10, had a transposon
insertion in genes with significant homology to pyoverdine biosynthesis
genes of Pseudomonas aeruginosa. I117 contained an
insertion in a pvdA homolog, the gene for the enzyme L-ornithine N5-oxygenase, which
catalyzes the hydroxylation of L-ornithine. Ornibactin
synthesis in this mutant was partially restored when the precursor
L-N5-OH-Orn was added to the
culture medium. T10 contained an insertion in a pvdD
homolog, which is a peptide synthetase involved in pyoverdine synthesis.
0019-9567/99/$04.00+0
Copyright © 1999, American Society for Microbiology. All rights reserved.
Role of Ornibactin Biosynthesis in the Virulence of
Burkholderia cepacia: Characterization of pvdA,
the Gene Encoding L-Ornithine
N5-Oxygenase
and
-Galactosidase activity was iron regulated in both I117
and T10, suggesting that the transposon was inserted downstream of an
iron-regulated promoter. Tn5-OT182 contains a
lacZ gene that is expressed when inserted downstream of an
active promoter. Both I117 and T10 were deficient in uptake of iron
complexed to either ornibactins or SA, suggesting that transposon
insertions in ornibactin biosynthesis genes also affected other
components of the iron transport mechanism. The B. cepacia
pvdA homolog was approximately 47% identical and 59% similar to
L-ornithine N5-oxygenase from
P. aeruginosa. Three clones were identified from a K56-2
cosmid library that partially restored ornibactin production, SA
production, and SA uptake to parental levels but did not affect the
rate of 59Fe-ornibactin uptake in I117. A chromosomal
pvdA deletion mutant was constructed that had a phenotype
similar to that of I117 except that it did not hyperproduce SA. The
pvdA mutants were less virulent than the parent strain in
chronic and acute models of respiratory infection. A functional
pvdA gene appears to be required for effective colonization
and persistence in B. cepacia lung infections.
*
Corresponding author. Mailing address: Department of
Microbiology and Infectious Diseases, University of Calgary Health
Sciences Center, 3330 Hospital Dr. NW, Calgary, Alberta, Canada T2N
4N1. Phone: (403) 220-6037. Fax: (403) 270-2772. E-mail:
psokol{at}ucalgary.ca.
Present address: Cardiff School of Biosciences, Cardiff University,
Cardiff, Wales CF1 3T2, United Kingdom.
Infection and Immunity, September 1999, p. 4443-4455, Vol. 67, No. 9
0019-9567/99/$04.00+0
Copyright © 1999, American Society for Microbiology. All rights reserved.
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