Abdel-Mohsen Heba T, Omar Mohamed A, Petreni Andrea, Supuran Claudiu T
Department of Chemistry of Natural and Microbial Products, Pharmaceutical and Drug Industries Research Institute, National Research Centre, Cairo, Egypt.
Department NEUROFARBA-Pharmaceutical and Nutraceutical Section, University of Firenze, Firenze, Italy.
Arch Pharm (Weinheim). 2022 Dec;355(12):e2200180. doi: 10.1002/ardp.202200180. Epub 2022 Sep 3.
A novel series of 2-thioquinazoline-benzenesulfonamide hybrids were designed as carbonic anhydrase (CA) inhibitors. The design approach relies on molecular hybridization between the benzenesulfonamide scaffold as a Zn binding group and 2-substituted thioquinazolines as a tail. Assaying the thioquinazoline-benzenesulfonamide conjugates against four different CA isoforms revealed that compounds 12f and 12p are the most potent derivatives. They exhibit K = 0.09 and 0.05 µM on CA II, 0.32 and 0.47 µM on CA IX, and 0.58 and 0.46 µM on CA XII, respectively. In addition, 12p demonstrated high selectivity for CA II over CA I with selectivity index (SI) = 92, and slightly higher specificity for CA II over CA IX and CA XII with SI = 9.40 and 9.20, respectively. The synthesized compounds were screened for their cytotoxic activity at 10 µM concentration and derivatives 12o, 12n, and 12f turned out to be the most potent ones from the synthesized series; they exhibit mean growth inhibition % values of 89.38%, 58.75%, and 54.71%, respectively, while 12p demonstrated moderate activity against the NCI cancer cell lines, with mean growth inhibition % = 29.62%. The analysis of the MCF-7 cell cycle after treatment with 5.0 µM of 12f displayed that it arrests the cell cycle at the G2/M phase. Molecular docking simulation of the thioquinazoline-benzenesulfonamide hybrids in the CA II active site rationalized the potent activity to the settlement of the sulfonamide moiety at the depth of the CA II active site and its stabilization by performing the important interactions with the Zn ion as well as with the key amino acids Thr199 and/or Thr200, while the thioquinazoline moiety with different (un)substituted phenyl tails is stabilized by the formation of various hydrogen bonding and hydrophobic interactions with the surrounding amino acids in the binding site.
设计了一系列新型的2-硫代喹唑啉-苯磺酰胺杂化物作为碳酸酐酶(CA)抑制剂。设计方法依赖于作为锌结合基团的苯磺酰胺支架与作为尾部的2-取代硫代喹唑啉之间的分子杂交。对硫代喹唑啉-苯磺酰胺缀合物针对四种不同的CA同工型进行测定,结果表明化合物12f和12p是最有效的衍生物。它们对CA II的K值分别为0.09和0.05μM,对CA IX的K值分别为0.32和0.47μM,对CA XII的K值分别为0.58和0.46μM。此外,12p对CA II相对于CA I表现出高选择性,选择性指数(SI)=92,对CA II相对于CA IX和CA XII表现出略高的特异性,SI分别为9.40和9.20。在10μM浓度下筛选合成化合物的细胞毒性活性,结果表明衍生物12o、12n和12f是合成系列中最有效的;它们的平均生长抑制率分别为89.38%、58.75%和54.71%,而12p对NCI癌细胞系表现出中等活性,平均生长抑制率为29.62%。用5.0μM的12f处理后对MCF-7细胞周期的分析表明,它使细胞周期停滞在G2/M期。硫代喹唑啉-苯磺酰胺杂化物在CA II活性位点的分子对接模拟将其强效活性归因于磺酰胺部分在CA II活性位点深处的定位以及通过与锌离子以及关键氨基酸Thr199和/或Thr200进行重要相互作用而实现的稳定化,而具有不同(未)取代苯基尾部的硫代喹唑啉部分通过与结合位点周围氨基酸形成各种氢键和疏水相互作用而得以稳定。
