Attilio Di Pietro scite author profile

Overexpression of breast cancer resistance protein ABCG2 confers multidrug resistance in cancer cells. The GF120918-sensitive drug efflux activity of human wild-type (R482) ABCG2-transfected cells was used for rational screening of inhibitory flavonoids and establishment of structure-activity relationships. Flavones were found more efficient than flavonols, isoflavones, and flavanones. Differentially substituted flavone derivatives indicated positive OH effects at position 5, in contrast to positions 3 and 7. A methoxy at position 7 was slightly positive in tectochrysin, whereas a strong positive effect was produced by prenylation at position 6. The potency of 6-prenylchrysin was comparable with that of GF120918 (IC 50 = 0.3 Mmol/L). Both 6-prenylchrysin and tectochrysin seemed specific for ABCG2 because no interaction was detected with either P-glycoprotein or MRP1. The ABCG2 resistance profile in vitro is altered by mutation at amino acid 482. The R482T mutation limited the effect of prenylation on ABCG2 inhibition. Whereas GF120918 strongly inhibited the ATPase activity of wild-type ABCG2, neither 6-prenylchrysin nor tectochrysin altered the activity. In contrast, all three inhibitors stimulated the ATPase activity of mutant ABCG2. 6-Prenylchrysin at 0.5 Mmol/L efficiently sensitized the growth of wild-type ABCG2-transfected cells to mitoxantrone, whereas higher concentrations were required for the mutant ones. In contrast, 1 Mmol/L tectochrysin was sufficient to fully sensitize mutant ABCG2-transfected cells, whereas higher concentrations were required for the wild-type ones. Both flavones exhibited a lower intrinsic cytotoxicity than GF120918 and were apparently not transported by ABCG2. 6-Prenylchrysin and tectochrysin therefore constitute new and promising inhibitors for the reversal of ABCG2-mediated drug transport. (Cancer Res 2005; 65(11): 4852-60)

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The Conserved Glutamate Residue Adjacent to the Walker-B Motif Is the Catalytic Base for ATP Hydrolysis in the ATP-binding Cassette Transporter BmrA

Orelle

Dalmas

Gros

et al. 2003

Journal of Biological Chemistry

172

176

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ATP-binding cassette (ABC) proteins constitute one of the widest families in all organisms, whose P-glycoprotein involved in resistance of cancer cells to chemotherapy is an archetype member. Although three-dimensional structures of several nucleotide-binding domains of ABC proteins are now available, the catalytic mechanism triggering the functioning of these proteins still remains elusive. In particular, it has been postulated that ATP hydrolysis proceeds via an acid-base mechanism catalyzed by the Glu residue adjacent to the Walker-B motif (Geourjon, C., Orelle, C., Steinfels, E., Blanchet, C., Delé age, G., Di Pietro, A., and Jault, J. M. 32 P]ATP unequivocally showed that all the mutants trapped exclusively the triphosphate form of the analogue, suggesting that they were not able to perform even a single hydrolytic turnover. These results demonstrate that Glu 504 is the catalytic base for ATP hydrolysis in BmrA, and it is proposed that equivalent glutamate residues in other ABC transporters play the same role.

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Attilio Di Pietro

Flavonoids: A class of modulators with bifunctional interactions at vicinal ATP- and steroid-binding sites on mouse P-glycoprotein

Flavonoid Structure-Activity Studies Identify 6-Prenylchrysin and Tectochrysin as Potent and Specific Inhibitors of Breast Cancer Resistance Protein ABCG2

The Conserved Glutamate Residue Adjacent to the Walker-B Motif Is the Catalytic Base for ATP Hydrolysis in the ATP-binding Cassette Transporter BmrA

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