鉴定以迈克尔受体为中心的药效团,其取代基具有较强的硫氧还蛋白还原酶抑制特性,与抗增殖活性相关。
Identification of Michael acceptor-centric pharmacophores with substituents that yield strong thioredoxin reductase inhibitory character correlated to antiproliferative activity.
机构信息
Department of Pharmacy, National University of Singapore , Singapore, Republic of Singapore .
出版信息
Antioxid Redox Signal. 2013 Oct 10;19(11):1149-65. doi: 10.1089/ars.2012.4909. Epub 2013 Feb 28.
AIMS
The role of thioredoxin reductase (TrxR) in tumorigenesis has made it an attractive anticancer target. A systematic approach for development of novel compounds as TrxR inhibitors is currently lacking. Structurally diversified TrxR inhibitors share in common electrophilic propensities for the sulfhydryl groups, among which include the Michael reaction acceptors containing an α,β-unsaturated carbonyl moiety. We aimed to identify features among structurally diversified Michael acceptor-based compounds that would yield a strong TrxR inhibitory character.
RESULTS
Structurally dissimilar Michael acceptor-based natural compounds such as isobutylamides, zerumbone, and shogaols (SGs) were found to possess a poor TrxR inhibitory activity, indicating that a sole Michael acceptor moiety was insufficient to produce TrxR inhibition. The 1,7-diphenyl-hept-3-en-5-one pharmacophore in 3-phenyl-3-SG, a novel SG analog that possessed comparable TrxR inhibitory and antiproliferative potencies as 6-SG, was modified to yield 1,5-diphenyl-pent-1-en-3-one (DPPen) and 1,3-diphenyl-pro-1-en-3-one (DPPro, also known as chalcone) pharmacophores. These Michael acceptor-centric pharmacophores, when substituted with the hydroxyl and fluorine groups, gave rise to analogs displaying a TrxR inhibitory character positively correlated to their antiproliferative potencies. Lead analogs 2,2'-diOH-5,5'-diF-DPPen and 2-OH-5-F-DPPro yielded a half-maximal TrxR inhibitory concentration of 9.1 and 10.5 μM, respectively, after 1-h incubation with recombinant rat TrxR, with the C-terminal selenocysteine residue found to be targeted.
INNOVATION
Identification of Michael acceptor-centric pharmacophores among diversified compounds demonstrates that a systematic approach to discover and develop Michael acceptor-based TrxR inhibitors is feasible.
CONCLUSION
A strong TrxR inhibitory character correlated to the antiproliferative potency is attributed to structural features that include an α,β-unsaturated carbonyl moiety centered in a DPPen or DPPro pharmacophore bearing hydroxyl and fluorine substitutions.
目的
硫氧还蛋白还原酶(TrxR)在肿瘤发生中的作用使其成为有吸引力的抗癌靶点。目前缺乏开发新型化合物作为 TrxR 抑制剂的系统方法。结构多样化的 TrxR 抑制剂具有共同的巯基亲电性,其中包括含有α,β-不饱和羰基部分的迈克尔反应接受体。我们旨在确定结构多样化的迈克尔受体化合物中的特征,这些特征将产生强烈的 TrxR 抑制特性。
结果
发现结构不同的迈克尔受体天然化合物,如异丁酰胺、莪术醇和姜黄素(SGs),具有较差的 TrxR 抑制活性,表明单一的迈克尔受体部分不足以产生 TrxR 抑制。3-苯基-3-SG 是一种新型 SG 类似物,具有与 6-SG 相当的 TrxR 抑制和抗增殖效力,其 1,7-二苯基-庚-3-烯-5-酮药效团被修饰为 1,5-二苯基-戊-1-烯-3-酮(DPPen)和 1,3-二苯基-丙-1-烯-3-酮(DPPro,也称为查尔酮)药效团。这些迈克尔受体中心的药效团,当用羟基和氟取代时,产生了显示出与它们的抗增殖效力呈正相关的 TrxR 抑制特性的类似物。先导类似物 2,2'-二-OH-5,5'-二-F-DPPen 和 2-OH-5-F-DPPro 在与重组大鼠 TrxR 孵育 1 小时后,产生了半最大 TrxR 抑制浓度分别为 9.1 和 10.5 μM,其中靶向 C 末端硒代半胱氨酸残基。
创新
在多样化的化合物中鉴定出迈克尔受体中心的药效团表明,开发迈克尔受体为基础的 TrxR 抑制剂的系统方法是可行的。
结论
与抗增殖效力相关的强烈 TrxR 抑制特性归因于结构特征,包括以 DPPen 或 DPPro 药效团为中心的α,β-不饱和羰基部分,带有羟基和氟取代。
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