Journal
BIOORGANIC & MEDICINAL CHEMISTRY
Volume 17, Issue 3, Pages 1214-1221Publisher
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.bmc.2008.12.023
Keywords
Carbonic anhydrase; Sulfonamide; Diuretic; Thiazide; Chlorthalidone; Trichloromethiazide; Furosemide; Indapamide; X-ray crystallography
Funding
- uropean Union
- Italian FIRB [MIUR/FIRB RBNE03PX83_001]
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Thiazide and high ceiling diuretics were recently shown to inhibit all mammalian isoforms of carbonic anhydrase ( CA, EC 4.2.1.1) with a very different pro. le as compared to classical inhibitors, such as acetazolamide, methazolamide, and ethoxzolamide. Some of these structurally related compounds have a very different behavior against the widespread isozyme CA II, with chlorthalidone, trichloromethiazide, and furosemide being efficient inhibitors against CA II (K(I)s of 65-138 nM), whereas indapamide is a much weaker one (K-I of 2520 nM). Furthermore, some of these diuretics are quite efficient ( low nanomolar) inhibitors of other isoforms, for example, chlorthalidone against hCA VB, VII, IX, and XIII; indapamide against CA VII, IX, XII, and XIII, trichloromethiazide against CA VII and IX, and furosemide against CA I and XIV. Examining the four X-ray crystal structures of their CA II adducts, we observed several (2-3) active site water molecules interacting with the chlorthalidone, trichloromethiazide, and furosemide scaffolds which may be responsible for this important difference of activity. Indeed, indapamide bound to CA II has no interactions with active site water molecules. Chlorthalidone bound within the CA II active site is in an enolic (lactimic) tautomeric form, with the enolic OH also participating in two strong hydrogen bonds with Asn67 and a water molecule. The newly evidenced binding modes of these diuretics may be exploited for designing better CA II inhibitors as well as compounds with selectivity/ affinity for various isoforms with medicinal chemistry applications. (c) 2008 Elsevier Ltd. All rights reserved.
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