芳基硝基烯烃的镇痛和抗炎特性。

Laura Celano, Yolanda K Cupertino Da Silva, Nicolás Cataldo, Martín Gabay, Alicia Merlino, Magna S Alexandre-Moreira, Lidia Moreira Lima, Hugo Cerecetto, Mercedes González, Leonor Thomson
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引用次数: 1

摘要

在最近的一项工作中,我们描述了能够清除巨噬细胞衍生的氧化剂,特别是过氧亚硝酸盐和过氧亚硝酸盐衍生的自由基的芳基亚硝基烯的设计和合成。四种化合物被认为是潜在的先导化合物,1,1-二甲氨基-4-(2-硝基- 1z -乙烯基)苯(1),1,1-二甲氨基-4-(2-硝基- 1z -丙烯基)苯(2),5-(2-硝基- 1z -乙烯基)苯[d][1,3]二氧基(4)。在本工作中,在适当的体内小鼠模型中探讨了这些分子作为抗炎和镇痛药物的临床前验证的可能性。化合物1、2和4单剂量(30µmol kg-(1))口服小鼠,显示出与经典非甾体类抗炎药相似的抗炎和镇痛特性。药理作用与对前列腺素内过氧化物H合成酶(PGHS)的抑制作用一致。事实上,化合物对PGHS-1和PGHS-2均有抑制作用,其中化合物2作为PGHS-2抑制剂的特异性更高,特异性指数优于70%。与经典非甾体类抗炎药相反,化合物2抑制酶过氧化物酶半反应(IC50为2.3µM),而hrPGHS-2的环加氧酶活性保持不变。体外实验通过对接和分子动力学模拟得到加强,表明芳基硝基烯部分位于过氧化物酶活性位点区域,与过氧化物中间体竞争。这些化合物没有毒性和致突变性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Analgesic and Anti-Inflammatory Properties of Arylnitroalkenes.

In a recent work, we described the design and synthesis of arylnitroalkenes, able to scavenge macrophagederived oxidants, in particular peroxynitrite and peroxynitrite derived radicals. Four compounds emerged as potential leads, 1,1-dimethylamino-4-(2-nitro-1Z-ethenyl)benzene (1), 1,1-dimethylamino-4-(2-nitro-1Z-propenyl)benzene (2), 5- (2-nitro-1Z-ethenyl)benzo[d][1,3]dioxol (3), and 5-(2-nitro-1Z-ethenyl)benzo[d][1,3]dioxol (4). In the present work, the possibility of the preclinical validation of these molecules as anti-inflammatory and analgesic was explored in appropriate in vivo mouse models. Compounds 1, 2 and 4, administered orally as a single dose (30 µmol kg-(1)) to the mice showed anti-inflammatory and analgesic properties similar to classic nonsteroidal anti-inflammatory agents. The pharmacological effects were consistent with the inhibitory effect observed on prostaglandin endoperoxide H synthase (PGHS). In fact, both PGHS-1 and PGHS-2 were inhibited by the compounds, with compound 2 being more specific as PGHS-2 inhibitor with a specificity index superior to 70%. Conversely to classical nonsteroidal anti-inflammatory drugs, compound 2 inhibited peroxidase half reaction of the enzyme (IC50 2.3 µM) while the cyclooxygenase activity of hrPGHS-2 remained unchanged. In vitro experiments were reinforced by docking and molecular dynamics simulations showing arylnitroalkene moiety located in the region of the peroxidase active site, competing with the peroxide intermediate. The absence of toxicity and mutagenicity of the compounds was also demonstrated.

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