Dihydroxyphenyl-substituted thiosemicarbazone: A potent scaffold for the development of metallo-β-lactamases inhibitors and antimicrobial

IF 4.7 2区医学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY

Bioorganic Chemistry Pub Date : 2022-10-01 DOI:10.1016/j.bioorg.2022.105928

Lu Liu , Yin-Sui Xu , Jia-Zhu Chigan , Le Zhai , Huan-Huan Ding , Xiao-Rong Wu , Wei-Ya Chen , Ke-Wu Yang

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引用次数: 1

Abstract

The superbug infection mediated by metallo-β-lactamases (MβLs) has grown into anemergent health threat, and development of MβL inhibitors is an ideal strategy to combat the infection. In this work, twenty-five thiosemicarbazones 1a-e, 2a-e, 3a-e, 4a-d, 5a-d and 6a-b were synthesized and assayed against MβLs ImiS, NDM-1 and L1. The gained molecules specifically inhibited NDM-1 and ImiS, exhibiting an IC₅₀ value in the range of 0.37–21.35 and 0.45–8.76 µM, and 2a was found to be the best inhibitor, with an IC₅₀ of 0.37 and 0.45 µM, respectively, using meropenem (MER) as substrate. Enzyme kinetics and dialysis tests revealed and confirmed by ITC that 2a is a time-and dose-dependent inhibitor of ImiS and NDM-1, it competitively and reversibly inhibited ImiS with a K_i value of 0.29 µM, but irreversibly inhibited NDM-1. Structure-activity relationship disclosed that the substitute dihydroxylbenzene significantly enhanced inhibitory activity of thiosemicarbazones on ImiS and NDM-1. Most importantly, 1a-e, 2a-e and 3a-b alone more strongly sterilized E. coli-ImiS and E. coli-NDM-1 than the MER, displaying a MIC value in the range of 8–128 μg/mL, and 2a was found to be the best reagent with a MIC of 8 and 32 μg/mL. Also, 2a alone strongly sterilized the clinical isolates EC01, EC06-EC08, EC24 and K. pneumonia-KPC-NDM, showing a MIC value in the range of 16–128 μg/mL, and exhibited synergistic inhibition with MER on these bacteria tested, resulting in 8–32-fold reduction in MIC of MER. SEM images shown that the bacteria E. coli-ImiS, E. coli-NDM-1, EC24, K. pneumonia-KPC and K. pneumonia-KPC-NDM treated with 2a (64 μg/mL) suffered from distortion, emerging adhesion between individual cells and crumpled membranes. Mice tests shown that monotherapy of 2a evidently limited growth of EC24 cells, and in combination with MER, it significantly reduced the bacterial load in liver and spleen. Docking studies suggest that the 2,4-dihydroxylbenzene of 2a acts as zinc-binding group with the Zn(II) and the residual amino acids in CphA active center, tightly anchoring the inhibitor at active site. This work offered a promising scaffold for the development of MβLs inhibitors, specifically the antimicrobial for clinically drug-resistant isolates.

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二羟基苯基取代硫代氨基脲:开发金属β-内酰胺酶抑制剂和抗菌药物的有效支架

金属β-内酰胺酶(MβL)介导的超级细菌感染已成为一种紧急的健康威胁，开发MβL抑制剂是对抗感染的理想策略。本文合成了25种氨基硫脲类化合物1a-e、2a-e、3a-e、4a-d、5a-d和6a-b，并测定了它们对m - β ls ImiS、NDM-1和L1的抑制作用。获得的分子对NDM-1和ImiS具有特异性抑制作用，IC50值分别为0.37 ~ 21.35和0.45 ~ 8.76µM，其中以美罗培南(MER)为底物的2a为最佳抑制剂，IC50值分别为0.37和0.45µM。酶动力学和透析试验显示并由ITC证实，2a是ImiS和NDM-1的时间和剂量依赖性抑制剂，其Ki值为0.29µM，具有竞争性和可逆性抑制ImiS，但不可逆抑制NDM-1。构效关系表明，取代物二羟基苯显著增强了硫代氨基脲类化合物对ImiS和NDM-1的抑制活性。最重要的是，与MER相比，1a-e、2a-e和3a-b对大肠杆菌- imis和大肠杆菌- ndm -1的杀菌效果更强，MIC值在8 ~ 128 μg/mL之间，其中2a的MIC值分别为8和32 μg/mL。同时，2a对临床分离株EC01、EC06-EC08、EC24和肺炎克雷伯菌- kpc - ndm具有较强的抑菌作用，MIC值在16 ~ 128 μg/mL范围内，与MER具有协同抑制作用，使MER的MIC降低8 ~ 32倍。扫描电镜显示，经2a (64 μg/mL)处理后，大肠杆菌- imis、大肠杆菌- ndm -1、EC24、肺炎克雷杆菌- kpc和肺炎克雷杆菌- kpc - ndm出现变形，单个细胞之间出现粘连，膜皱褶。小鼠实验表明，2a单药治疗明显限制EC24细胞的生长，与MER联用可显著降低肝脏和脾脏的细菌负荷。对接研究表明，2a的2,4-二羟基苯与CphA活性中心的Zn(II)和残基氨基酸作为锌结合基团，将抑制剂紧密锚定在活性位点。这项工作为开发MβLs抑制剂，特别是临床耐药菌株的抗菌药物提供了一个有希望的支架。

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来源期刊

Bioorganic Chemistry 生物-生化与分子生物学

CiteScore

9.70

自引率

3.90%

发文量

679

审稿时长

31 days

期刊介绍： Bioorganic Chemistry publishes research that addresses biological questions at the molecular level, using organic chemistry and principles of physical organic chemistry. The scope of the journal covers a range of topics at the organic chemistry-biology interface, including: enzyme catalysis, biotransformation and enzyme inhibition; nucleic acids chemistry; medicinal chemistry; natural product chemistry, natural product synthesis and natural product biosynthesis; antimicrobial agents; lipid and peptide chemistry; biophysical chemistry; biological probes; bio-orthogonal chemistry and biomimetic chemistry. For manuscripts dealing with synthetic bioactive compounds, the Journal requires that the molecular target of the compounds described must be known, and must be demonstrated experimentally in the manuscript. For studies involving natural products, if the molecular target is unknown, some data beyond simple cell-based toxicity studies to provide insight into the mechanism of action is required. Studies supported by molecular docking are welcome, but must be supported by experimental data. The Journal does not consider manuscripts that are purely theoretical or computational in nature. The Journal publishes regular articles, short communications and reviews. Reviews are normally invited by Editors or Editorial Board members. Authors of unsolicited reviews should first contact an Editor or Editorial Board member to determine whether the proposed article is within the scope of the Journal.