Carglumic acid and mesalazine as potential anti-mycobacterial agents: a spectroscopic study for repurposing drugs against Mycobacterium tuberculosis targeting its essential enzyme ThyX.

IF 3.8 2区生物学 Q2 MICROBIOLOGY

Microbiology spectrum Pub Date : 2025-10-13 DOI:10.1128/spectrum.02486-24

Sana Tanweer, Meetu Agarwal, Kunal Malik, Rahul Sharma, Shivani A Muthu, Md Abrar Siddiquee, Khushbu Sharma, Isha Pahuja, Waseem Ali, Abhinav Grover, Ved Prakash Dwivedi, Basir Ahmad, Sonam Grover

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Abstract

Mycobacterium tuberculosis (M.tb) needs a key enzyme called ThyX to make thymidylate, which is essential for DNA replication and cell survival. In our previous study, carglumic acid (CGA) and mesalazine (MSZ) emerged as promising candidates from a Food and Drug Administration-approved drug library, selected through in silico screening. Our current investigation delves into the impact of CGA and MSZ on ThyX's biophysical properties. Utilizing fluorescence quenching, thermal, chemical denaturation, characterization, and circular dichroism spectroscopy, we probed the interaction between ThyX and the drugs. Our results confirm that both CGA and MSZ effectively quench ThyX's intrinsic fluorescence via a static quenching mechanism, leading to structural alterations in the protein. In subsequent in vitro and ex vivo studies, we determined that MSZ and CGA exhibit minimum inhibitory concentrations of 6.25 and 3.12 µg/mL, respectively, against M.tb. Notably, the survival of M.tb within RAW macrophages significantly decreased upon treatment with CGA and MSZ compared to untreated controls. In summary, our findings support the potential repurposing of CGA and MSZ as anti-tuberculosis (TB) drugs. Further validation in animal and clinical models is essential to assess their suitability for TB treatment.IMPORTANCEThyX (Rv2754c), flavin-dependent thymidylate synthase, is a crucial enzyme required by Mycobacterium tuberculosis for DNA replication and RNA maturation, making it a potential drug target to explore novel anti-tuberculosis (TB) treatments. Given the essentiality of ThyX, it was screened against Food and Drug Administration-approved drugs using molecular docking screening, and carglumic acid (CGA) and mesalazine (MSZ) were selected as potential inhibitors. To validate and explore their anti-mycobacterial potential, molecular dynamic simulation of these drugs in the presence of ThyX was carried out, and these studies were validated using in vitro biophysical characterization to establish their binding kinetics and effects of these drugs on the stability and structural changes of ThyX. Lastly, in vitro and ex vivo anti-mycobacterial activity of CGA and MSZ establish them as probable candidates for management of TB.

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葡萄糖酸和美沙拉嗪作为潜在的抗结核分枝杆菌药物：针对结核分枝杆菌必需酶ThyX的药物再利用的光谱研究。

结核分枝杆菌需要一种叫做ThyX的关键酶来制造胸腺苷酸，胸腺苷酸对DNA复制和细胞存活至关重要。在我们之前的研究中，carglumacid （CGA）和美沙拉嗪（MSZ）从美国食品和药物管理局批准的药物库中脱颖而出，通过计算机筛选。我们目前的研究是探讨CGA和MSZ对ThyX生物物理性质的影响。利用荧光猝灭、热、化学变性、表征和圆二色光谱，我们探讨了ThyX与药物的相互作用。我们的研究结果证实，CGA和MSZ都通过静态猝灭机制有效地猝灭ThyX的固有荧光，导致蛋白质的结构改变。在随后的体外和离体研究中，我们确定MSZ和CGA对M.tb的最低抑制浓度分别为6.25和3.12µg/mL。值得注意的是，与未治疗的对照组相比，CGA和MSZ治疗后，RAW巨噬细胞内结核分枝杆菌的存活率显著降低。总之，我们的研究结果支持CGA和MSZ作为抗结核药物的潜在用途。在动物和临床模型中进一步验证对于评估它们是否适合结核病治疗至关重要。ethyx （Rv2754c）是黄素依赖性胸苷酸合成酶，是结核分枝杆菌DNA复制和RNA成熟所需的关键酶，使其成为探索新型抗结核（TB）治疗的潜在药物靶点。鉴于ThyX的重要性，采用分子对接筛选方法对fda批准的药物进行了筛选，并选择了甘油三酯（CGA）和美沙拉嗪（MSZ）作为潜在抑制剂。为了验证和探索这些药物在ThyX存在下的抗分枝杆菌潜能，我们对这些药物进行了分子动力学模拟，并利用体外生物物理表征对这些研究进行了验证，以建立它们的结合动力学以及这些药物对ThyX稳定性和结构变化的影响。最后，CGA和MSZ的体外和体外抗分枝杆菌活性确定它们可能是治疗结核病的候选药物。

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

Microbiology spectrum Biochemistry, Genetics and Molecular Biology-Genetics

CiteScore

3.20

自引率

5.40%

发文量

1800

期刊介绍： Microbiology Spectrum publishes commissioned review articles on topics in microbiology representing ten content areas: Archaea; Food Microbiology; Bacterial Genetics, Cell Biology, and Physiology; Clinical Microbiology; Environmental Microbiology and Ecology; Eukaryotic Microbes; Genomics, Computational, and Synthetic Microbiology; Immunology; Pathogenesis; and Virology. Reviews are interrelated, with each review linking to other related content. A large board of Microbiology Spectrum editors aids in the development of topics for potential reviews and in the identification of an editor, or editors, who shepherd each collection.