Biological evaluation and molecular docking studies of novel aza-acyclic nucleosides as putative antimicrobial, anticancer, and antioxidant agents

IF 4.3 2区化学 Q2 CHEMISTRY, MULTIDISCIPLINARY

BMC Chemistry Pub Date : 2025-08-31 DOI:10.1186/s13065-025-01623-x

Mohammad Alhilal, Suzan Alhilal, Sobhi M. Gomha, Basant Farag, Ilhan Sabancilar, Salama A. Ouf

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Abstract

This study aimed to synthesize new aza-acyclic nucleosides (aza-acyclovir) and evaluate the efficacy of these synthetic compounds as potential antimicrobial, anticancer, and antioxidant agents. We prepared two novel aza-acyclic nucleosides via two reactions. The first reaction involved trichloroisocyanuric acid and dibenzosulphonyl diethylamine, and the second reaction involved trichloroisocyanuric acid and diethanolamine. We then used one-dimensional nuclear magnetic resonance (NMR) spectroscopy, two-dimensional NMR spectroscopy, infrared spectroscopy, and mass spectrometry to determine the structures of the resulting compounds. In this regard, we first tested the antimicrobial activity of these compounds against various bacteria, including Bacillus cereus, B. subtilis, Staphylococcus epidermidis, Staphylococcus aureus, Escherichia coli, Proteus mirabilis, and Pseudomonas aeruginosa, and against fungal pathogens, including Aspergillus fumigatus, Candida tropicalis, and Alternaria solani. Next, the precise mode for the interaction between synthesized aza-acyclic nucleosides and the target protein 8HQ5 was elucidate using molecular docking analysis. Subsequently, we tested the synthesized compounds for putative anticancer activity at different concentrations (i.e., 12.5, 25, 50, 100, and 200 µg/mL) against A549 cell (Human epithelial lung carcinoma) and human umbilical vein endothelial cell (HUVEC) lines. In addition, compounds antioxidant activity was evaluated using the 2,2-diphenyl-1-picrylhydrazyl-based and cupric reducing antioxidant capacity-based methods at different concentrations (i.e., 31.25, 62.5, 125, 250, and 500 µg/mL). Results revealed that both aza-acyclic nucleosides inhibited both bacterial and fungal strains, although toxicity toward bacterial strains was generally greater than toward fungal strains. We also observed that the molecular docking results were consistent with the results of in vitro antimicrobial assessments. Further, both aza-cyclic nucleosides exhibited cytotoxic effects against both the A549 cell and HUVEC lines. Despite exhibiting lower radical scavenging activity than ascorbic acid (an antioxidant compound used as a standard), Compound 1 from the novel synthetic aza-acyclic nucleosides showed a higher reduction capacity, which was dose-dependent. Overall, we report newly synthesized compounds that show promising antimicrobial, anticancer, and antioxidant effects.

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新型氮杂环核苷作为抗微生物、抗癌和抗氧化剂的生物学评价和分子对接研究

本研究旨在合成新的氮杂-无环核苷（氮杂-无环苷），并评价这些合成的化合物作为潜在的抗菌、抗癌和抗氧化剂的功效。我们通过两个反应制备了两个新的氮杂环核苷。第一个反应涉及三氯异氰尿酸和二苯并磺酰基二乙胺，第二个反应涉及三氯异氰尿酸和二乙醇胺。然后，我们使用一维核磁共振（NMR）光谱，二维核磁共振光谱，红外光谱和质谱来确定所得化合物的结构。在这方面，我们首先测试了这些化合物对各种细菌的抗菌活性，包括蜡样芽孢杆菌、枯草芽孢杆菌、表皮葡萄球菌、金黄色葡萄球菌、大肠杆菌、神奇变形杆菌和铜绿假单胞菌，以及对真菌病原体的抗菌活性，包括烟曲霉、热带念珠菌和番茄赤霉。接下来，利用分子对接分析阐明合成的偶氮-无环核苷与靶蛋白8HQ5相互作用的精确模式。随后，我们测试了合成的化合物在不同浓度（即12.5、25、50、100和200µg/mL）下对A549细胞（人上皮性肺癌）和人脐静脉内皮细胞（HUVEC）系的抗癌活性。此外，在不同浓度（即31.25、62.5、125、250和500µg/mL）下，采用基于2,2-二苯基-1-苦味酰肼和基于铜还原抗氧化能力的方法评估化合物的抗氧化活性。结果表明，氮杂-无环核苷对细菌和真菌菌株均有抑制作用，但对细菌菌株的毒性一般大于真菌菌株。我们还观察到分子对接结果与体外抗菌评估结果一致。此外，两种氮杂环核苷对A549细胞和HUVEC细胞系均表现出细胞毒性作用。尽管表现出比抗坏血酸（一种用作标准的抗氧化化合物）更低的自由基清除活性，但新合成的氮杂环核苷的化合物1显示出更高的还原能力，这是剂量依赖性的。总的来说，我们报道了新合成的具有抗菌、抗癌和抗氧化作用的化合物。图形抽象

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来源期刊

BMC Chemistry Chemistry-General Chemistry

CiteScore

5.30

自引率

2.20%

发文量

审稿时长

27 weeks

期刊介绍： BMC Chemistry, formerly known as Chemistry Central Journal, is now part of the BMC series journals family. Chemistry Central Journal has served the chemistry community as a trusted open access resource for more than 10 years – and we are delighted to announce the next step on its journey. In January 2019 the journal has been renamed BMC Chemistry and now strengthens the BMC series footprint in the physical sciences by publishing quality articles and by pushing the boundaries of open chemistry.