设计、合成及生物评价 1-[(2-苄氧基/烷氧基)甲基]-5-卤代-6-芳基尿嘧啶类化合物作为具有改善耐药谱的高效抗 HIV-1 非核苷类逆转录酶抑制剂。
Design, synthesis, and biological evaluation of 1-[(2-benzyloxyl/alkoxyl)methyl]-5-halo-6-aryluracils as potent HIV-1 non-nucleoside reverse transcriptase inhibitors with an improved drug resistance profile.
机构信息
Department of Chemical Biology, School of Pharmaceutical Sciences, Peking University, Beijing 100191, China.
出版信息
J Med Chem. 2012 Mar 8;55(5):2242-50. doi: 10.1021/jm201506e. Epub 2012 Feb 17.
Abstract
Because the emergence of drug-resistant mutants has limited the efficacy of non-nucleoside reverse transcriptase inhibitors (NNRTIs), it is essential to develop new antivirals with better drug resistance and pharmacokinetic profiles. Here we designed and synthesized a series of 1-[(2-benzyloxyl/alkoxyl)methyl]-5-halo-6-aryluracils, the HEPT analogues, and evaluated their biological activity using nevirapine and 18 (TNK-651) as reference compounds. Most of these compounds, especially 6b, 7b, 9b, 11b, and 7c, exhibited highly potent anti-HIV-1 activity against both wild-type and NNRTI-resistant HIV-1 strains. Compound 7b, which had the highest selectivity index (SI = 38 215), is more potent than nevirapine and 18. These results suggest that the introduction of a halogen at the C-5 position may contribute to the effectiveness of these compounds against RTI-resistant variants. In addition, meta substituents on the C-6 aromatic moiety could significantly enhance activity against NNRTI-resistant HIV-1 strains. These compounds can be further developed as next-generation NNRTIs with an improved antiviral efficacy and drug-resistance profile.
摘要
由于耐药突变体的出现限制了非核苷类逆转录酶抑制剂(NNRTIs)的疗效,因此开发具有更好耐药性和药代动力学特征的新型抗病毒药物至关重要。在这里,我们设计并合成了一系列 1-[(2-苯氧基/烷氧基)甲基]-5-卤代-6-芳基尿嘧啶,作为 HEPT 类似物,并将其与奈韦拉平(nevirapine)和 18(TNK-651)作为参考化合物进行了生物活性评估。这些化合物中的大多数,特别是 6b、7b、9b、11b 和 7c,对野生型和 NNRTI 耐药的 HIV-1 株均表现出高度有效的抗 HIV-1 活性。其中化合物 7b 的选择性指数(SI = 38215)最高,其活性比奈韦拉平(nevirapine)和 18 更强。这些结果表明,在 C-5 位置引入卤素可能有助于这些化合物对 RTI 耐药变体的有效性。此外,C-6 芳基部分的间位取代基可显著增强对 NNRTI 耐药 HIV-1 株的活性。这些化合物可进一步开发为具有改善的抗病毒疗效和耐药性特征的下一代 NNRTIs。
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