Structure–activity relationships and enzyme inhibition of pantothenamide-type pantothenate kinase inhibitors
Structure–activity relationships were determined for three series of pantothenamide-type pantothenate kinase inhibitors through their evaluation in vivo against a panel of four PanK enzymes and for antimicrobial activity. A set of novel pantothenamide-type analogues of the known Staphylococcus aureu...
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Veröffentlicht in: | Bioorganic & medicinal chemistry 2006-02, Vol.14 (4), p.1007-1020 |
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Zusammenfassung: | Structure–activity relationships were determined for three series of pantothenamide-type pantothenate kinase inhibitors through their evaluation in vivo against a panel of four PanK enzymes and for antimicrobial activity.
A set of novel pantothenamide-type analogues of the known
Staphylococcus aureus pantothenate kinase (
SaPanK) inhibitors,
N-pentyl, and
N-heptylpantothenamide, was synthesized in three series. The first series of analogues (
1–
3) were designed as molecular probes of the PanK binding site to elucidate important structure–activity relationships (SAR). The second series of analogues (
4–
16) were designed using structural information obtained from the
Escherichia coli PanK (
EcPanK) structure by targeting the pantothenate binding site and the adjacent phenylalanine-lined lipophilic pocket. Insight into the antimicrobial effect of
N-pentylpantothenamide (N5-Pan) through its conversion to the antimetabolite ethyldethia-CoA and further incorporation into an inactive acyl carrier protein analogue drove the development of the third series of analogues (
17–
25) to enhance this effect using substrate-like substitutions. Each of the analogues was screened for enzyme inhibition activity against a panel of pantothenate kinases consisting of
EcPanK,
Aspergillus nidulans (
AnPanK),
SaPanK, and the murine isoform (
MmPanK1α). Series 1 demonstrated only modest inhibitory activity, but did reveal some important SAR findings including stereospecific binding. Series 2 demonstrated a much higher inhibition rate for the entire series and significant inhibition was seen with analogues containing alkyl substituents. Series 3 demonstrated the most preferential inhibition profile, with the highest inhibitory activity against the
SaPanK and
MmPanK1α. The
MmPanK1α protein was inhibited by a broad spectrum of the compounds, whereas the
E. coli enzyme showed greater selectivity. The overall activity data from these analogues suggest a complex and non-enzyme specific SAR for pantothenamide substrate/inhibitors of the different PanK enzymes. |
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ISSN: | 0968-0896 1464-3391 |
DOI: | 10.1016/j.bmc.2005.09.021 |