: A series of taurinamide-based amides 1-19 were investigated for their effects on human (h) carbonic anhydrase (CA; EC 4.2.1.1) isoforms I, II, VA, VII, IX, and XII, which are all relevant for biomedical applications. According to inhibition data, most of the derivatives displayed affinity and selectivity for the hCA I isoform over the other isoforms tested, and compounds 1, 2, 4, 8, and 9 emerged as potent nanomolar inhibitors of hCA I and hCA IX, exhibiting KI values in the range of 0.65-0.83 and 0.59-0.96 µM, respectively (asetazolamide KI = 0.25 for CA I and KI = 0.03 M for hCA IX). The X-ray structures of 15 and 18 in complex with hCA II provided detailed insights into the binding mode and molecular determinants. Substitution patterns were found to have a tuning effect on both affinity and selectivity toward specific isoforms, thus providing valuable insights for the design of new CA inhibitors.
Novel Taurinamide-Based Compounds as Carbonic Anhydrase Inhibitors / Akgul, Ozlem; Renzi, Gioele; Angeli, Andrea; Ferraroni, Marta; Carta, Fabrizio; Supuran, Claudiu T. - In: ARCHIV DER PHARMAZIE. - ISSN 1521-4184. - ELETTRONICO. - 358:(2025), pp. 0-0. [10.1002/ardp.70073]
Novel Taurinamide-Based Compounds as Carbonic Anhydrase Inhibitors
Renzi, Gioele;Angeli, Andrea;Ferraroni, Marta;Carta, Fabrizio;Supuran, Claudiu T
2025
Abstract
: A series of taurinamide-based amides 1-19 were investigated for their effects on human (h) carbonic anhydrase (CA; EC 4.2.1.1) isoforms I, II, VA, VII, IX, and XII, which are all relevant for biomedical applications. According to inhibition data, most of the derivatives displayed affinity and selectivity for the hCA I isoform over the other isoforms tested, and compounds 1, 2, 4, 8, and 9 emerged as potent nanomolar inhibitors of hCA I and hCA IX, exhibiting KI values in the range of 0.65-0.83 and 0.59-0.96 µM, respectively (asetazolamide KI = 0.25 for CA I and KI = 0.03 M for hCA IX). The X-ray structures of 15 and 18 in complex with hCA II provided detailed insights into the binding mode and molecular determinants. Substitution patterns were found to have a tuning effect on both affinity and selectivity toward specific isoforms, thus providing valuable insights for the design of new CA inhibitors.
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