Institute of Chemical Sciences, Bahauddin Zakariya University, Multan 60800, Pakistan.
Department of Biotechnology, Faculty of Science, Bartin University, 74100 Bartin, Turkey.
Bioorg Chem. 2020 Jul;100:103924. doi: 10.1016/j.bioorg.2020.103924. Epub 2020 May 12.
In recent decade, the entrance of α-N-heterocyclic thiosemicarbazones derivates (Triapne, COTI-2 and DpC) in clinical trials for cancer and HIV-1 has vastly increased the interests of medicinal chemists towards this class of organic compounds. In the given study, a series of eighteen new (3a-r) 3-ethoxy salicylaldehyde-based thiosemicarbazones (TSC), bearing aryl and cycloalkyl substituents, were synthesized and assayed for their pharmacological potential against carbonic anhydrases (hCA I and hCA II), cholinesterases (AChE and BChE) and α-glycosidase. The hCA I isoform was inhibited by these novel 3-ethoxysalicylaldehyde thiosemicarbazone derivatives (3a-r) in low nanomolar levels, the Ki of which differed between 144.18 ± 26.74 and 454.92 ± 48.32 nM. Against the physiologically dominant isoform hCA II, the novel compounds demonstrated Ks varying from 110.54 ± 14.05 to 444.12 ± 36.08 nM. Also, these novel derivatives (3a-r) effectively inhibited AChE, with Ki values in the range of 385.38 ± 45.03 to 983.04 ± 104.64 nM. For BChE was obtained with Ki values in the range of 400.21 ± 35.68 to 1003.02 ± 154.27 nM. For α-glycosidase the most effective Ki values of 3l, 3n, and 3q were with Ki values of 12.85 ± 1.05, 16.03 ± 2.84, and 19.16 ± 2.66 nM, respectively. Moreover, the synthesized TCSs were simulated using force field methods whereas the binding energies of the selected compounds were estimated using MM-GBSA method. The findings indicate the present novel 3-ethoxy salicylaldehyde-based thiosemicarbazones to be excellent hits for pharmaceutical applications.
在过去的十年中,α-N-杂环硫代缩氨基脲衍生物(Triapne、COTI-2 和 DpC)在癌症和 HIV-1 的临床试验中的引入,极大地增加了药物化学家对这一类有机化合物的兴趣。在给定的研究中,合成了一系列十八种新的(3a-r)3-乙氧基水杨醛基硫代缩氨基脲(TSC),具有芳基和环烷基取代基,并对其针对碳酸酐酶(hCA I 和 hCA II)、胆碱酯酶(AChE 和 BChE)和α-糖苷酶的药理潜力进行了测定。这些新型 3-乙氧基水杨醛硫代缩氨基脲衍生物(3a-r)以低纳摩尔水平抑制 hCA I 同工酶,其 Ki 为 144.18 ± 26.74 至 454.92 ± 48.32 nM。对于生理上占主导地位的同工酶 hCA II,新型化合物的 Ks 范围为 110.54 ± 14.05 至 444.12 ± 36.08 nM。此外,这些新型衍生物(3a-r)有效抑制 AChE,Ki 值范围为 385.38 ± 45.03 至 983.04 ± 104.64 nM。对于 BChE,Ki 值范围为 400.21 ± 35.68 至 1003.02 ± 154.27 nM。对于α-糖苷酶,3l、3n 和 3q 的最有效 Ki 值分别为 12.85 ± 1.05、16.03 ± 2.84 和 19.16 ± 2.66 nM。此外,使用力场方法模拟了合成的 TCS,并用 MM-GBSA 方法估算了选定化合物的结合能。研究结果表明,目前的新型 3-乙氧基水杨醛基硫代缩氨基脲是用于药物应用的优秀候选物。
