In Silico Study of the Potential of Brazilein Sappan Wood as a Beta-Lactamase Inhibitor against Extended-Spectrum Beta-Lactamase-Encoding Genes.

IF 1.1 Q4 MEDICINE, RESEARCH & EXPERIMENTAL

Malaysian Journal of Medical Sciences Pub Date : 2024-06-01 Epub Date: 2024-06-27 DOI:10.21315/mjms2024.31.3.7

Dwi Krihariyani, Evy Diah Woelansari, Edy Haryanto, Retno Sasongkowati, Anik Handayati, Sri Sulami Endah Astuti

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引用次数: 0

Abstract

Background: Infectious illnesses are a serious health concern in Indonesia. Widespread use of self-medication by the community increases the risk of developing multi-drug resistant (MDR) bacteria. This study assessed the potential of sappan wood as an inhibitor of extended-spectrum beta-lactamase (ESBL) encoded by blaSHV, blaTEM and blaCTX-M genes.

Method: In silico testing was conducted to develop an effective and economical starting strategy. Thereby, this study significantly advances the development of novel treatments to combat antibiotic resistance. Using clavulanic acid as the benchmark medicine, the potency of the beta-lactamase inhibitor brazilein was predicted. Using the Molegro Virtual Docker computer tool, docking was performed to estimate the chemical and physical properties of the compounds, as well as the biological activity of brazilein toward the required receptor. The receptors used were SHV-1 beta-lactamase, PDB code: 2H0T; TEM-1 beta-lactamase, PDB code: 4OQG and CTX-M-14 beta-lactamase, PDB code: 6VHS. Data analysis was performed by comparing the binding energies of the docking results between the ligands and the target receptor. The more stable the bond that formed between the ligand and the target receptor, the lower the bond energy.

Results: The in silico test results on the blaSHV gene were as follows: binding energy of ligand MA4_400[A] = -100.699, brazilein = -82.206, clavulanic acid = -79.3704; in the blaTEM gene: ligand bond energy 2UL_301[B] = -107.681, brazilein = -82.0296, clavulanic acid = -103.3; in the blaCTX-M gene: X57_301[A] ligand bond energy = -86.6197, and brazilein = -88.1586, clavulanic acid = -101.933.

Conclusion: The findings of this study demonstrate the significant potential of brazilein sappan wood to block the beta-lactamase activity of blaCTX-M.

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Brazilein Sappan 木作为β-内酰胺酶抑制剂对广谱β-内酰胺酶编码基因的潜力的硅学研究。

背景：传染病是印度尼西亚的一个严重健康问题。社区中广泛使用的自我药疗方法增加了发展多重耐药菌（MDR）的风险。本研究评估了苏枋木作为由 blaSHV、blaTEM 和 blaCTX-M 基因编码的广谱β-内酰胺酶（ESBL）抑制剂的潜力：方法：为制定有效、经济的起始策略，进行了硅学测试。因此，这项研究极大地推动了抗生素耐药性新型疗法的开发。以克拉维酸为基准药物，预测了β-内酰胺酶抑制剂brazilein的效力。利用 Molegro Virtual Docker 计算机工具进行了对接，以估计化合物的化学和物理特性，以及 Brazilein 对所需受体的生物活性。使用的受体为 SHV-1 beta-内酰胺酶，PDB 代码为2H0T；TEM-1 β-内酰胺酶，PDB 代码：4OQG；CTX-M-内酰胺酶，PDB 代码：2H0T：4OQG 和 CTX-M-14 β-内酰胺酶，PDB 代码：6VHS：6VHS。数据分析是通过比较配体与目标受体之间对接结果的结合能来进行的。配体与目标受体之间形成的键越稳定，键能就越低：对 blaSHV 基因的硅学测试结果如下：配体 MA4_400[A]的结合能=-100.699，brazilein=-82.206，clavulanic acid=-79.3704；在 blaTEM 基因中：配体键能 2UL_301[B] =-107.681，brazilein=-82.0296，clavulanic acid=-103.3；在 blaCTX-M 基因中，配体 X57_301[A] =-100.699，brazilein=-82.206，clavulanic acid=-79.3704：X57_301[A]配体键能=-86.6197，布拉茨林=-88.1586，克拉维酸=-101.933：本研究结果表明，红豆杉具有阻断 blaCTX-M β-内酰胺酶活性的巨大潜力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Malaysian Journal of Medical Sciences MEDICINE, RESEARCH & EXPERIMENTAL-

CiteScore

2.70

自引率

0.00%

发文量

审稿时长

9 weeks

期刊介绍： The Malaysian Journal of Medical Sciences (MJMS) is a peer-reviewed, open-access, fully online journal that is published at least six times a year. The journal’s scope encompasses all aspects of medical sciences including biomedical, allied health, clinical and social sciences. We accept high quality papers from basic to translational research especially from low & middle income countries, as classified by the United Nations & World Bank (https://datahelpdesk.worldbank.org/knowledgebase/ articles/906519), with the aim that published research will benefit back the bottom billion population from these countries. Manuscripts submitted from developed or high income countries to MJMS must contain data and information that will benefit the socio-health and bio-medical sciences of these low and middle income countries. The MJMS editorial board consists of internationally regarded clinicians and scientists from low and middle income countries.