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非键合氮相互作用对二有机酰基二硫代物反应性的调节。

Modulation of diorganoyl dichalcogenides reactivity by non-bonded nitrogen interactions.

机构信息

Departamento de Química, Centro de Ciências Naturais e Exatas, Universidade Federal de Santa Maria, Santa Maria CEP 97105-900, RS, Brazil.

出版信息

Chem Biol Interact. 2012 Aug 30;199(2):96-105. doi: 10.1016/j.cbi.2012.05.010. Epub 2012 Jun 5.

Abstract

The study was designed to explore the biochemical influence of non bonding nitrogen interactions (N⋯Se/S) on organochalcogens potency. Approximately five and six times higher thiol peroxidase (TPx) like activity was observed for compound (C)-2 than C-1 and C-3, respectively. C-2 also displayed significantly (p<0.05) higher activity in 1,1-diphenyl-2-picrylhydrazyl (DPPH) radical scavenging and deoxyribose degradation assays. All compounds, except C-4 and C-6 significantly inhibited Fe (II) and sodium nitroprusside (SNP) induced thiobarbituric acid reactive species (TBARS) production in rat's brain, liver and kidney preparations with highest activity observed for C-2. The highest C-2 activity was attributed to the presence of non-bonded nitrogen interactions which were absent in C-1 and blocked with butoxycarbonyl (BOC group) in C-3. The same structural activity analogy was extended to organosulfur compounds and it was observed that compound with non-bonding nitrogen interactions, i.e. C-5 has significantly (p<0.05) higher TPx like activity than C-6 and C-4. C-5 at the highest tested concentration significantly (p<0.05) protected against Fe (II) and SNP induced TBARS formation in rat's brain, kidney and liver preparations but did not display activity in DPPH and deoxyribose degradation assays. This study confirms the influence of not only N⋯Se interaction but also for the first time the effect of non bonded N⋯S interactions on organochalcogens potency. C-2 (with the highest activity) was also tested in vivo and was administered at three different doses, i.e. 15, 30 and 50 mg/kg to get an exact idea about its interaction with thiol containing molecules (NPSH) and enzyme α-ALA-D (sulfhydryl containing enzyme). Oxidative stress parameters, i.e. free radical concentration by dichlorofluoreseein (DCF) assay, TBARS, ascorbic acid level, hepatic (ALT and AST) and renal (urea and creatinine) toxicity markers were also estimated to get an insight about its possible toxicological profile. Our data indicates that C-2 has higher TPx and Antioxidant activity and importantly, C2 did not induce toxicity even when tested at relatively high doses, indicating that its pharmacological properties should be further explored in models of diseases associated with oxidative stress.

摘要

这项研究旨在探索非键合氮相互作用(N⋯Se/S)对有机硫属元素效力的生化影响。与 C-1 和 C-3 相比,化合物(C)-2 的硫醇过氧化物酶(TPx)样活性分别高出约 5 倍和 6 倍。C-2 在 1,1-二苯基-2-苦基肼(DPPH)自由基清除和脱氧核糖降解测定中也表现出显著(p<0.05)更高的活性。除了 C-4 和 C-6,所有化合物均显著抑制 Fe(II)和硝普钠(SNP)诱导的大鼠脑、肝和肾组织中硫代巴比妥酸反应性物质(TBARS)的产生,其中 C-2 的活性最高。C-2 的最高活性归因于非键合氮相互作用的存在,而 C-1 中不存在这种相互作用,并且在 C-3 中被丁氧基羰基(BOC 基团)阻断。同样的结构活性类比也扩展到有机硫化合物,观察到具有非键合氮相互作用的化合物,即 C-5,其 TPx 样活性明显(p<0.05)高于 C-6 和 C-4。在最高测试浓度下,C-5 显著(p<0.05)保护大鼠脑、肾和肝组织免受 Fe(II)和 SNP 诱导的 TBARS 形成,但在 DPPH 和脱氧核糖降解测定中没有活性。这项研究证实了不仅 N⋯Se 相互作用的影响,而且首次证实了非键合 N⋯S 相互作用对有机硫属元素效力的影响。C-2(活性最高)也在体内进行了测试,并以 15、30 和 50 mg/kg 的三个不同剂量给药,以更准确地了解其与含巯基分子(NPSH)和酶α-ALA-D(含巯基酶)的相互作用。还评估了氧化应激参数,即二氯荧光素(DCF)测定中的自由基浓度、TBARS、抗坏血酸水平、肝(ALT 和 AST)和肾(尿素和肌酐)毒性标志物,以了解其可能的毒理学特征。我们的数据表明,C-2 具有更高的 TPx 和抗氧化活性,重要的是,即使在相对较高的剂量下测试,C-2 也没有诱导毒性,这表明其药理学特性应该在与氧化应激相关的疾病模型中进一步探索。

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