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PA-824 对厌氧条件下结核分枝杆菌的杀菌活性及新型类似物对突变 Ddn 受体的计算分析。

Bactericidal activity of PA-824 against Mycobacterium tuberculosis under anaerobic conditions and computational analysis of its novel analogues against mutant Ddn receptor.

机构信息

Foundation for Innovative New Diagnostics, Flat No, 6-14 (excluding No, 7), 9th floor, Vijaya Building, 17-Barakhamba Road, New Delhi 110 001, India.

出版信息

BMC Microbiol. 2013 Oct 1;13:218. doi: 10.1186/1471-2180-13-218.

DOI:10.1186/1471-2180-13-218
PMID:24083570
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3853930/
Abstract

BACKGROUND

The resurgence of multi-drug resistant tuberculosis (MDR-TB) and HIV associated tuberculosis (TB) are of serious global concern. To contain this situation, new anti-tuberculosis drugs and reduced treatment regimens are imperative. Recently, a nitroimidazole, PA-824, has been shown to be active against both replicating and non-replicating bacteria. It is activated by the enzyme Deazaflavin-dependent nitroreductase (Ddn) present in Mycobacterium tuberculosis which catalyzes the reduction of PA-824, resulting in the release of lethal reactive nitrogen species (RNS) within the bacteria. In this context, PA-824 was analyzed for its activity against latent tuberculosis under anaerobic conditions and compared with rifampicin (RIF) and pyrazinamide (PZA). Recent mutagenesis studies have identified A76E mutation which affects the above mentioned catalysis and leads to PA-824 resistance. Hence, novel analogues which could cope up with their binding to mutant Ddn receptor were also identified through this study.

RESULTS

PA-824 at an optimum concentration of 12.5 μg/ml showed enhanced bactericidal activity, resulting in 0 CFU/ml growth when compared to RIF and PZA at normal pH and anaerobic condition. Further docking studies revealed that a combinatorial structure of PA-824 conjugated with moxifloxacin (ligand 8) has the highest binding affinity with the wild type and mutant Ddn receptor.

CONCLUSIONS

PA-824 has been demonstrated to have better activity under anaerobic condition at 12.5 μg/ml, indicating an optimized dose that is required for overcoming the detoxifying mechanisms of M. tuberculosis and inducing its death. Further, the development of resistance through A76E mutation could be overcome through the in silico evolved ligand 8.

摘要

背景

耐多药结核病(MDR-TB)和与 HIV 相关的结核病(TB)的死灰复燃引起了严重的全球关注。为了遏制这种情况,必须使用新的抗结核药物和缩短治疗方案。最近,一种硝基咪唑类药物 PA-824 已被证明对复制和非复制细菌均具有活性。它由结核分枝杆菌中存在的 Deazaflavin 依赖性硝基还原酶(Ddn)激活,该酶催化 PA-824 的还原,导致细菌内释放致命的活性氮物种(RNS)。在这种情况下,PA-824 的活性在厌氧条件下针对潜伏性结核病进行了分析,并与利福平(RIF)和吡嗪酰胺(PZA)进行了比较。最近的突变研究已经确定了 A76E 突变,该突变影响了上述催化作用,导致 PA-824 耐药。因此,通过这项研究还鉴定了能够应对与突变 Ddn 受体结合的新型类似物。

结果

PA-824 在最佳浓度为 12.5μg/ml 时显示出增强的杀菌活性,与正常 pH 值和厌氧条件下的 RIF 和 PZA 相比,导致 0 CFU/ml 的生长。进一步的对接研究表明,PA-824 与莫西沙星(配体 8)的组合结构与野生型和突变型 Ddn 受体具有最高的结合亲和力。

结论

PA-824 在 12.5μg/ml 的厌氧条件下已被证明具有更好的活性,表明需要优化剂量以克服结核分枝杆菌的解毒机制并诱导其死亡。此外,通过 A76E 突变产生的耐药性可以通过计算机模拟进化的配体 8 来克服。

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