An Insight to the Toxic Effect of Sulfamerazine on Porcine Pancreatic Amylase and Lactate Dehydrogenase Activity: An In Vitro Study

Avirup Malla, K. Mukherjee, M. Mandal, Aishwarya Mukherjee, R. Sur, Suvroma Gupta
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引用次数: 1

Abstract

Sulfamerazine, a sulfonamide, has been routinely used to treat various bacterial infections, namely Pneumonia, Urinary tract infections, Shigellosis, Bronchitis, Prostatitis, and many more. It interferes with the bacterial folic acid biosynthesis, albeit higher eukaryotes are not susceptible to its action due to the inherent absence of this specific pathway. In spite of its constant use, Sulfamerazine administration evokes serious issues like the development of antibacterial resistance through environmental contamination, although how it affects the eukaryotic system, specifically its target identification, has not been addressed in detail. The source of the cell line, including when and from where it was obtained. Whether the cell line has recently been authenticated and by what method. Whether the cell line has recently been tested for mycoplasma contamination. Hela Cells are cultured as per the standard method, amylase and lactate dehydrogenase assay are conducted using a standard procedure with a spectrophotometer. Binding thermodynamics and conformational study have been estimated with isothermal titration calorimetry as well as with docking. Experimental observations reveal that Sulfamerazine inhibits porcine pancreatic amylase in a noncompetitive mode (IC50 of 0.96 mM). The binding of the drug to porcine pancreatic amylase is entropy-driven with conformational changes of the protein as indicated by concomitant redshift. It enhances the inhibitory effects of acarbose and cetapin on their in vitro pancreatic amylase activity. It augments lipid peroxidation and promotes lactic acidosis in a dose-dependent manner. Docking studies ensure effective interactions between Sulfamerazine and proteins like lactic dehydrogenase and porcine pancreatic amylase. Detailed study is to be conducted to confirm whether the molecular scaffold of Sulfamerazine might serve as an effective repurposed drug acting as a lead molecule to design antidiabetic drugs of future use. Alternatively, it should be prescribed with caution under specific medical situations like diabetes, cancer and hepatic disorders manifesting lactic acidosis to avoid the crisis.
磺胺嗪对猪胰淀粉酶和乳酸脱氢酶活性的毒性作用:体外研究
磺胺嗪是一种磺胺类药物,已被常规用于治疗各种细菌感染,如肺炎、尿路感染、志贺菌病、支气管炎、前列腺炎等。它干扰细菌叶酸的生物合成,尽管高等真核生物由于固有的缺乏这种特定途径而对其作用不敏感。尽管磺胺嘧啶一直在使用,但它引起了严重的问题,如通过环境污染产生抗菌耐药性,尽管它如何影响真核系统,特别是其靶标识别,尚未得到详细解决。细胞系的来源,包括获得的时间和地点。细胞系最近是否被鉴定过,用什么方法鉴定过。最近是否对细胞系进行了支原体污染检测。按照标准方法培养海拉细胞,淀粉酶和乳酸脱氢酶测定采用分光光度计标准程序进行。用等温滴定量热法和对接法估计了结合热力学和构象研究。实验结果表明,磺胺美嗪对猪胰淀粉酶的抑制作用为非竞争模式(IC50为0.96 mM)。药物与猪胰淀粉酶的结合是由熵驱动的,蛋白质的构象变化由伴随的红移显示。增强了阿卡波糖和鲸鲸素对其体外胰淀粉酶活性的抑制作用。它以剂量依赖的方式增强脂质过氧化并促进乳酸酸中毒。对接研究确保了磺胺美嗪与乳酸脱氢酶和猪胰淀粉酶等蛋白质之间的有效相互作用。磺胺美嗪分子支架能否作为一种有效的再用途药物作为先导分子来设计未来使用的抗糖尿病药物,还有待进一步的研究。另外,在特定的医疗情况下,如糖尿病、癌症和肝脏疾病表现为乳酸性酸中毒,应谨慎开处方,以避免危机。
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来源期刊
Current Chemical Biology
Current Chemical Biology Medicine-Biochemistry (medical)
CiteScore
1.40
自引率
0.00%
发文量
16
期刊介绍: Current Chemical Biology aims to publish full-length and mini reviews on exciting new developments at the chemistry-biology interface, covering topics relating to Chemical Synthesis, Science at Chemistry-Biology Interface and Chemical Mechanisms of Biological Systems. Current Chemical Biology covers the following areas: Chemical Synthesis (Syntheses of biologically important macromolecules including proteins, polypeptides, oligonucleotides, oligosaccharides etc.; Asymmetric synthesis; Combinatorial synthesis; Diversity-oriented synthesis; Template-directed synthesis; Biomimetic synthesis; Solid phase biomolecular synthesis; Synthesis of small biomolecules: amino acids, peptides, lipids, carbohydrates and nucleosides; and Natural product synthesis).
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