Design, Molecular Docking, Synthesis, and Antimicrobial Evaluation of new Dipeptide derivatives of Ceftizoxime sodium

Q3 Pharmacology, Toxicology and Pharmaceutics

Research Journal of Pharmacy and Technology Pub Date : 2024-01-19 DOI:10.52711/0974-360x.2024.00039

Zahra N. Hachim, Shakir M. Alwan, Mayada H. Al-Qaisi

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引用次数: 0

Abstract

Newer cephalosporins that can be orally administered with significant oral bioavailability and resist β-lactamases are continuously and significantly requested. A method of using a potent third-generation cephalosporin, ceftizoxime, was suggested to synthesize new dipeptide derivatives. These derivatives were successfully synthesized by linking a dipeptide moiety, which includes L-Tryptophan-L-valine, L-Tryptophan-L-alanine, L-Tryptophan-L-histidine, and L-Tryptophan-L-phenylalanine as dipeptides to the aminothiazole moiety of ceftizoxime by an amide bond. Their chemical structures were confirmed by spectral analysis, including 1H-NMR,13CNMR, and FT-IR spectroscopy. Molecular docking for these new derivatives was performed on penicillin-binding proteins (PBPs) type 2a (3ZG0) of Methicillin-resistant Staphylococcus aureus, type 2X (5OJ0) of Streptococcus pneumonia and type 1b (5HLA) of E. coli, and has recorded higher affinity binding represented as PLP fitness on target enzymes. The binding scores were significant and may indicate better antimicrobial activities when compared with ceftizoxime. This improvement in affinity binding can be explained by the presence of indole and/or imidazole moieties in those derivatives. The indole and imidazole moieties are actual pharmacophores with various biological activities and may contribute to affinity binding, and the derivatives are considered molecular hybrids. Furthermore, a preliminary evaluation of the antibacterial activity of the synthesized derivatives was performed against two significant bacterial species (MRSA and E. coli), which showed better activity in compression to ceftizoxime. Moreover, the derivatives were tested on the protein oligopeptide (POT) family system and have recorded very interesting results for possible oral absorption when compared with Ceftizoxime, Val-acyclovir, and Val-Val-Acyclovir, as reference drugs. The Swiss ADME server was also used to analyze the pharmacokinetic characteristics and identify those likely to be absorbed orally.

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头孢唑肟钠新二肽衍生物的设计、分子对接、合成和抗菌评估

人们对可口服、口服生物利用度高且能抗β-内酰胺酶的新型头孢菌素的需求量一直很大。有人提出了一种使用强效第三代头孢菌素头孢唑肟合成新二肽衍生物的方法。通过酰胺键将二肽分子（包括 L-色氨酸-L-缬氨酸、L-色氨酸-L-丙氨酸、L-色氨酸-L-组氨酸和 L-色氨酸-L-苯丙氨酸）与头孢唑肟的氨基噻唑分子连接，成功合成了这些衍生物。它们的化学结构通过光谱分析（包括 1H-NMR、13CNMR 和 FT-IR 光谱）得到了证实。这些新衍生物与耐甲氧西林金黄色葡萄球菌的 2a 型（3ZG0）、肺炎链球菌的 2X 型（5OJ0）和大肠杆菌的 1b 型（5HLA）青霉素结合蛋白（PBPs）进行了分子对接，结果表明它们与目标酶的亲和力更强。与头孢唑肟相比，亲和力结合得分很高，这可能表明它们具有更好的抗菌活性。这些衍生物中的吲哚和/或咪唑分子可以解释亲和力结合的提高。吲哚和咪唑分子是具有各种生物活性的实际药原，可能有助于亲和性结合，因此这些衍生物被认为是分子杂合体。此外，还对合成衍生物的抗菌活性进行了初步评估，结果表明它们对两种重要细菌（MRSA 和大肠杆菌）的抗菌活性优于头孢唑肟。此外，衍生物还在蛋白寡肽（POT）家族系统中进行了测试，与作为参考药物的头孢唑肟、缬阿昔洛韦和缬缬阿昔洛韦相比，在可能的口服吸收方面取得了非常有趣的结果。瑞士 ADME 服务器也被用来分析药代动力学特征，并确定那些可能被口服吸收的药物。

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

Research Journal of Pharmacy and Technology Pharmacology, Toxicology and Pharmaceutics-Pharmacology, Toxicology and Pharmaceutics (miscellaneous)

CiteScore

1.40

自引率

0.00%

发文量

期刊介绍： Research Journal of Pharmacy and Technology (RJPT) is an international, peer-reviewed, multidisciplinary journal, devoted to pharmaceutical sciences. The aim of RJPT is to increase the impact of pharmaceutical research both in academia and industry, with strong emphasis on quality and originality. RJPT publishes Original Research Articles, Short Communications, Review Articles in all areas of pharmaceutical sciences from the discovery of a drug up to clinical evaluation. Topics covered are: Pharmaceutics and Pharmacokinetics; Pharmaceutical chemistry including medicinal and analytical chemistry; Pharmacognosy including herbal products standardization and Phytochemistry; Pharmacology: Allied sciences including drug regulatory affairs, Pharmaceutical Marketing, Pharmaceutical Microbiology, Pharmaceutical biochemistry, Pharmaceutical Education and Hospital Pharmacy.