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Antimicrobial Agents and Chemotherapy, May 1999, p. 1129-1136, Vol. 43, No. 5
Molecular Genetics Group, Department of
Biochemistry, St. George's Hospital Medical School, University of
London, London SW17 0RE, United Kingdom
Received 4 January 1999/Returned for modification 4 February
1999/Accepted 3 March 1999
Streptococcus pneumoniae gyrA and gyrB
genes specifying the DNA gyrase subunits have been cloned into pET
plasmid vectors under the control of an inducible T7 promoter and have
been separately expressed in Escherichia coli. Soluble
97-kDa GyrA and 72-kDa GyrB proteins bearing polyhistidine tags at
their respective C-terminal and N-terminal ends were purified to
apparent homogeneity by one-step nickel chelate column chromatography
and were free of host E. coli topoisomerase activity.
Equimolar amounts of the gyrase subunits reconstituted ATP-dependent
DNA supercoiling with comparable activity to gyrase of E. coli and Staphylococcus aureus. In parallel, S. pneumoniae topoisomerase IV ParC and ParE subunits were similarly expressed in E. coli, purified to near homogeneity as 93- and 73-kDa proteins, and shown to generate efficient ATP-dependent DNA
relaxation and DNA decatenation activities. Using the purified enzymes,
we examined the inhibitory effects of three paradigm fluoroquinolones
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Streptococcus pneumoniae DNA Gyrase and
Topoisomerase IV: Overexpression, Purification, and Differential
Inhibition by Fluoroquinolones
ciprofloxacin, sparfloxacin, and clinafloxacinwhich previous genetic studies with S. pneumoniae suggested act
preferentially through topoisomerase IV, through gyrase, and through
both enzymes, respectively. Surprisingly, all three quinolones were
more active in inhibiting purified topoisomerase IV than gyrase, with
clinafloxacin showing the greatest inhibitory potency. Moreover, the
tested agents were at least 25-fold more effective in stabilizing a
cleavable complex (the relevant cytotoxic lesion) with topoisomerase IV than with gyrase, with clinafloxacin some 10- to 32-fold more potent
against either enzyme, in line with its superior activity against
S. pneumoniae. The uniform target preference of the three fluoroquinolones for topoisomerase IV in vitro is in apparent contrast
to the genetic data. We interpret these results in terms of a model for
bacterial killing by quinolones in which cellular factors can modulate
the effects of target affinity to determine the cytotoxic pathway.
*
Corresponding author. Mailing address: Molecular
Genetics Group, Department of Biochemistry, St. George's Hospital
Medical School, University of London, Cranmer Terrace, London SW17 0RE, United Kingdom. Fax: 44 181 725 2992. E-mail:
lfisher{at}sghms.ac.uk.
Antimicrobial Agents and Chemotherapy, May 1999, p. 1129-1136, Vol. 43, No. 5
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Copyright © 1999, American Society for Microbiology. All rights reserved.
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