- Dual aromatase-steroid sulfatase inhibitors
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By introducting the steroid sulfatase inhibitory pharmacophore into aromatase inhibitor 1 (YM511), two series of single agent dual aromatase-sulfatase inhibitors (DASIs) were generated. The best DASIs in'vitro (JEG-3 cells) are 5, (IC50(aromatase) = 0.82 nM; IC 50(sulfatase) = 39 nM), and 14, (IC50(aromatase) = 0.77 nM; IC50(sulfatase) = 590 nM). X-ray crystallography of 5, and docking studies of selected compounds into an aromatase homology model and the steroid sulfatase crystal structure are presented. Both 5 and 14 inhibit aromatase and sulfatase in PMSG pretreated adult female Wistar rats potently 3 h after a single oral 10 mg/kg dose. Almost complete dual inhibition is observed for 5 but the levels were reduced to 85% (aromatase) and 72% (sulfatase) after 24 h. DASI 5 did not inhibit aldosterone synthesis. The development of a potent and selective DASI should allow the therapeutic potential of dual aromatase-sulfatase inhibition in hormone-dependent breast cancer to be assessed.
- Woo, L. W. Lawrence,Bubert, Christian,Sutcliffe, Oliver-B.,Smith, Andrew,Chander, Surinder K.,Mahon, Mary F.,Purohit, Atul,Reed, Michael J.,Potter, Barry V. L.
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p. 3540 - 3560
(2008/02/09)
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- Compound
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There is provided a compound of Formula I 1 wherein each T is independently selected from H, hydrocarbyl, —F—R, and a bond with one of D, E, P or Q, or together with one of P and Q forms a ring; Z is a suitable atom the valency of which is m; D, E and F are each independently of each other an optional linker group, wherein when Z is nitrogen E is other than CH2 and C═O; P, Q and R are independently of each other a ring system; and at least Q comprises a sulphamate group.
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Page/Page column 48; 49
(2008/06/13)
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- First dual aromatase-steroid sulfatase inhibitors
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Aromatase inhibitors in clinical use block the biosynthesis of estrogens. Hydrolysis of estrone 3-sulfate by steroid sulfatase is an important additional source of tumor estrogen, and blockade of both enzymes should provide a more effective endocrine therapy. Sulfamoylated derivatives of the aromatase inhibitor YM511 inhibited sulfatase and aromatase in JEG-3 cells with respective IC50 values of 20-227 and 0.82-100 nM (cf. letrozole, 0.89 nM). One dual inhibitor was potent against both enzymes in vivo, validating the concept.
- Woo, L.W. Lawrence,Sutcliffe, Oliver B.,Bubert, Christian,Grasso, Anna,Chander, Surinder K.,Purohit, Atul,Reed, Michael J.,Potter, Barry V. L.
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p. 3193 - 3196
(2007/10/03)
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