Published in
American Chemical Society, Journal of Medicinal Chemistry, 19(54), p. 6597-6611, 2011
DOI: 10.1021/jm200416e
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Novel Inhibitors of NRH:Quinone Oxidoreductase 2 (NQO2): Crystal Structures, Biochemical Activity, and Intracellular Effects of Imidazoacridin-6-ones
,
Barnes J; Humphries M; Whitehead RC; Bryce RA; Leys D; Stratford IJ; Nolan KA Dunstan,
Whitehead Rc,
Ian J. Stratford,
Richard A. Bryce,
Bryce Ra,
David Leys,
Stratford Ij,
Nolan Ka,
Karen A. Nolan,
John Barnes Matthew Humphries Roger C. Whitehead Richard A. Bryce Mark S. Dunstan
Full text: Unavailable
- Must obtain written permission from Editor
- Must not violate ACS ethical Guidelines
- Must obtain written permission from Editor
- Must not violate ACS ethical Guidelines
Abstract
Imidazoacridin-6-ones are shown to be potent nanomolar inhibitors of the enzyme NQO2. By use of computational molecular modeling, a reliable QSAR was established, relating inhibitory potency with calculated binding affinity. Further, crystal structures of NQO2 containing two of the imidazoacridin-6-ones have been solved. To generate compounds with reduced off-target (DNA binding) effects, an N-oxide moiety was introduced into the tertiary aminoalkyl side chain of the imidazoacridin-6-ones. This resulted in substantially less toxicity in a panel of eight cancer cell lines, decreased protein binding, and reduced DNA binding and nuclear accumulation. Finally, one of the N-oxides showed potent ability to inhibit the enzymatic function of NQO2 in cells, and therefore, it may be useful as a pharmacological probe to study the properties of the enzyme in vitro and in vivo.