{"title":"当两性霉素B缺乏时,Daclatasvir是两性霉素B治疗毛霉菌病的合适替代品吗?","authors":"Pugazhenthan Thangaraju, Sree Sudha Tanguturi Yella, Vijayakumar Arumugam Ramamurthy, Sivakumar Muthusamy, Lappathai Habib Mohamed Thameemul Ansari, Irfan Navabshan, Sajitha Venkatesan","doi":"10.2174/2589977515666230430004013","DOIUrl":null,"url":null,"abstract":"<p><strong>Background: </strong>Mucormycosis has been infesting the universe for a while back, often with no prompt treatments. The disease devastation is spreading at an alarming rate. Many researchers are still hoping for a good potential drug that could help the healthcare system in this tussle. Molecular docking is an in silico tool that has gained popularity over the last few decades. Knowing the mechanism of enzymatic action is aided by imitating membrane protein actions in binding ligands.</p><p><strong>Aim: </strong>The aim of this perspective is to determine whether an existing drug, daclatasvir, has antifungal activity.</p><p><strong>Objective: </strong>The primary objective of this in silico study was to investigate the potential effects of the binding affinity of daclatasvir with the crucial protein (1XFF) of mucormycosis, as well as the binding pattern of the active site amino acids with the drug molecule.</p><p><strong>Materials and methods: </strong>To calculate the binding affinity of daclatasvir to the fungal protein 1XFF, Auto Dock Vina was used for molecular docking studies. The CDOCKER protocol was used to determine the receptor-ligand interaction by configuring various parameters.</p><p><strong>Results: </strong>The docking energy of the ligand (daclatasvir) on the protein (1XFF) was found to be -16.7216 kcal/mol, while the interaction energy was found to be - 42.1314 kcal/mol.</p><p><strong>Conclusion: </strong>The binding pattern completely alters the dynamics of the protein, resulting in the breakdown of the fungal wall. The vital protein (1XFF) of Rhizopus oryzae is proposed as a possible protein target for the non-structural protein 5A inhibitor/antiviral drug daclatasvir in this study.</p>","PeriodicalId":37008,"journal":{"name":"Current Drug Research Reviews","volume":" ","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2023-04-29","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"1","resultStr":"{\"title\":\"Is Daclatasvir a suitable substitute for Amphotericin B in the treatment of Mucormycosis when Amphotericin B is scarce?\",\"authors\":\"Pugazhenthan Thangaraju, Sree Sudha Tanguturi Yella, Vijayakumar Arumugam Ramamurthy, Sivakumar Muthusamy, Lappathai Habib Mohamed Thameemul Ansari, Irfan Navabshan, Sajitha Venkatesan\",\"doi\":\"10.2174/2589977515666230430004013\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><strong>Background: </strong>Mucormycosis has been infesting the universe for a while back, often with no prompt treatments. The disease devastation is spreading at an alarming rate. Many researchers are still hoping for a good potential drug that could help the healthcare system in this tussle. Molecular docking is an in silico tool that has gained popularity over the last few decades. Knowing the mechanism of enzymatic action is aided by imitating membrane protein actions in binding ligands.</p><p><strong>Aim: </strong>The aim of this perspective is to determine whether an existing drug, daclatasvir, has antifungal activity.</p><p><strong>Objective: </strong>The primary objective of this in silico study was to investigate the potential effects of the binding affinity of daclatasvir with the crucial protein (1XFF) of mucormycosis, as well as the binding pattern of the active site amino acids with the drug molecule.</p><p><strong>Materials and methods: </strong>To calculate the binding affinity of daclatasvir to the fungal protein 1XFF, Auto Dock Vina was used for molecular docking studies. The CDOCKER protocol was used to determine the receptor-ligand interaction by configuring various parameters.</p><p><strong>Results: </strong>The docking energy of the ligand (daclatasvir) on the protein (1XFF) was found to be -16.7216 kcal/mol, while the interaction energy was found to be - 42.1314 kcal/mol.</p><p><strong>Conclusion: </strong>The binding pattern completely alters the dynamics of the protein, resulting in the breakdown of the fungal wall. 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引用次数: 1
摘要
背景:毛霉病已经在宇宙中肆虐了一段时间,通常没有及时的治疗。疾病的破坏正以惊人的速度蔓延。许多研究人员仍然希望有一种潜在的好药物,可以帮助医疗保健系统在这场斗争中。分子对接是一种计算机工具,在过去的几十年里得到了普及。通过模拟膜蛋白在结合配体中的作用有助于了解酶的作用机制。目的:本视角的目的是确定现有药物daclatasvir是否具有抗真菌活性。目的:本计算机实验的主要目的是研究daclatasvir与毛霉病关键蛋白(1XFF)的结合亲和力的潜在影响,以及活性位点氨基酸与药物分子的结合模式。材料与方法:为计算daclatasvir与真菌蛋白1XFF的结合亲和力,采用Auto Dock Vina进行分子对接研究。CDOCKER协议通过配置各种参数来确定受体-配体相互作用。结果:配体(daclatasvir)与蛋白(1XFF)的对接能为-16.7216 kcal/mol,相互作用能为- 42.1314 kcal/mol。结论:这种结合模式完全改变了蛋白质的动力学,导致真菌壁的破坏。本研究提出米根霉(Rhizopus oryzae)的重要蛋白(1XFF)作为非结构蛋白5A抑制剂/抗病毒药物daclatasvir的可能蛋白靶点。
Is Daclatasvir a suitable substitute for Amphotericin B in the treatment of Mucormycosis when Amphotericin B is scarce?
Background: Mucormycosis has been infesting the universe for a while back, often with no prompt treatments. The disease devastation is spreading at an alarming rate. Many researchers are still hoping for a good potential drug that could help the healthcare system in this tussle. Molecular docking is an in silico tool that has gained popularity over the last few decades. Knowing the mechanism of enzymatic action is aided by imitating membrane protein actions in binding ligands.
Aim: The aim of this perspective is to determine whether an existing drug, daclatasvir, has antifungal activity.
Objective: The primary objective of this in silico study was to investigate the potential effects of the binding affinity of daclatasvir with the crucial protein (1XFF) of mucormycosis, as well as the binding pattern of the active site amino acids with the drug molecule.
Materials and methods: To calculate the binding affinity of daclatasvir to the fungal protein 1XFF, Auto Dock Vina was used for molecular docking studies. The CDOCKER protocol was used to determine the receptor-ligand interaction by configuring various parameters.
Results: The docking energy of the ligand (daclatasvir) on the protein (1XFF) was found to be -16.7216 kcal/mol, while the interaction energy was found to be - 42.1314 kcal/mol.
Conclusion: The binding pattern completely alters the dynamics of the protein, resulting in the breakdown of the fungal wall. The vital protein (1XFF) of Rhizopus oryzae is proposed as a possible protein target for the non-structural protein 5A inhibitor/antiviral drug daclatasvir in this study.
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