Inhibition of membrane-associated carbonic anhydrase isozymes IX, XII and XIV with a library of glycoconjugate benzenesulfonamides.
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Bornaghi, Laurent F
Houston, Todd A
Innocenti, Alessio
Vullo, Daniela
Supuran, Claudiu T
Poulsen, Sally-Ann
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Boger, D. L.
Ghosez, L.
Shibasaki, M.
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Abstract
A library of glycoconjugate benzenesulfonamides that contain diverse carbohydrate-triazole tails were investigated for their ability to inhibit the enzymatic activity of the three human transmembrane carbonic anhydrases (CAs) isozymes hCA IX, hCA XII and hCA XIV. These isozymes have their CA domains located extracellularly, unlike the physiologically dominant hCA II, and are of immense current interest as druggable targets. Elevated expression of isozymes IX and XII is a marker for a broad spectrum of hypoxic tumors - this physiology may facilitate a novel approach to discriminate between healthy cells and cancerous cells. Many of these glycoconjugates were potent inhibitors (low nM), but importantly exhibited different isozyme selectivity profiles. The most potent hCA IX inhibitor was the glucuronic acid derivative 20 (Ki = 23 nM). This compound was uniquely hCA IX selective cf. all other isozymes (16.4-fold, 16.8-fold and 4.6-fold selective against hCA II, XII and XIV, respectively). At hCA XII there were many inhibitors with Kis<10 nM that also demonstrated excellent selectivity (up to 344-fold) against other isozymes. Potent hCA XIV inhibitors were also identified, several with Kis~10 nM, however no hCA XIV selective derivatives were evidenced from this library. The sugar tails of this study have therefore shown promise as a valuable approach to both solubilize the aromatic sulfonamide CA recognition pharmacophore and to deliver potent inhibition and isozyme differentiation of the transmembrane CAs.
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Bioorganic & Medicinal Chemistry Letters
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17
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© 2007 Elsevier. This is the author-manuscript version of this paper. Reproduced in accordance with the copyright policy of the publisher. Please refer to the journal's website for access to the definitive, published version.
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Medicinal and biomolecular chemistry
Organic chemistry
Pharmacology and pharmaceutical sciences