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PDBsum entry 1g2a
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Contents |
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* Residue conservation analysis
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References listed in PDB file
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Key reference
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Title
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Antibiotic activity and characterization of bb-3497, A novel peptide deformylase inhibitor.
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Authors
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J.M.Clements,
R.P.Beckett,
A.Brown,
G.Catlin,
M.Lobell,
S.Palan,
W.Thomas,
M.Whittaker,
S.Wood,
S.Salama,
P.J.Baker,
H.F.Rodgers,
V.Barynin,
D.W.Rice,
M.G.Hunter.
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Ref.
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Antimicrob Agents Chemother, 2001,
45,
563-570.
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PubMed id
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Abstract
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Peptide deformylase (PDF) is an essential bacterial metalloenzyme which
deformylates the N-formylmethionine of newly synthesized polypeptides and as
such represents a novel target for antibacterial chemotherapy. To identify novel
PDF inhibitors, we screened a metalloenzyme inhibitor library and identified an
N-formyl-hydroxylamine derivative, BB-3497, and a related natural hydroxamic
acid antibiotic, actinonin, as potent and selective inhibitors of PDF. To
elucidate the interactions that contribute to the binding affinity of these
inhibitors, we determined the crystal structures of BB-3497 and actinonin bound
to Escherichia coli PDF at resolutions of 2.1 and 1.75 A, respectively. In both
complexes, the active-site metal atom was pentacoordinated by the side chains of
Cys 90, His 132, and His 136 and the two oxygen atoms of N-formyl-hydroxylamine
or hydroxamate. BB-3497 had activity against gram-positive bacteria, including
methicillin-resistant Staphylococcus aureus and vancomycin-resistant
Enterococcus faecalis, and activity against some gram-negative bacteria.
Time-kill analysis showed that the mode of action of BB-3497 was primarily
bacteriostatic. The mechanism of resistance was via mutations within the
formyltransferase gene, as previously described for actinonin. While actinonin
and its derivatives have not been used clinically because of their poor
pharmacokinetic properties, BB-3497 was shown to be orally bioavailable. A
single oral dose of BB-3497 given 1 h after intraperitoneal injection of S.
aureus Smith or methicillin-resistant S. aureus protected mice from infection
with median effective doses of 8 and 14 mg/kg of body weight, respectively.
These data validate PDF as a novel target for the design of a new generation of
antibacterial agents.
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