Hitting Epstein Barr virus where it hurts: computational methods exploration for siRNA therapy in alleviating Epstein Barr virus-induced multiple sclerosis.

IF 1.6 4区 医学 Q3 CLINICAL NEUROLOGY
Neurogenetics Pub Date : 2024-07-01 Epub Date: 2024-05-29 DOI:10.1007/s10048-024-00764-w
Taiwo Ooreoluwa Ojo, Oluwabamise Emmanuel Elegbeleye, Olawale Quadri Bolaji, Temitope Isaac Adelusi, Elijah Kolawole Oladipo, Matthew Oluwaseun Olawuyi, Bukola Oluwafunmilayo Afolayan, Adegboye Oyewole Oyaronbi, Taiwo Temitope Ogunjobi, Moyosoluwa Precious Oyewole, Kolade Pelumi Folorunso, Abdeen Tunde Ogunlana
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引用次数: 0

Abstract

Multiple sclerosis (MS), an intricate neurological disorder, continues to challenge our understanding of the pivotal interplay between the immune system and the central nervous system (CNS). This condition arises from the immune system's misdirected attack on nerve fiber protection, known as myelin sheath, alongside nerve fibers themselves. This enigmatic condition, characterized by demyelination and varied clinical manifestations, prompts exploration into its multifaceted etiology and potential therapeutic avenues. Research has revealed a potential connection between Epstein Barr virus (EBV), specifically Epstein Barr Nuclear Antigen 1 (EBNA-1), and MS. The immune response to EBNA-1 antigen triggers the production of anti-EBNA-1 molecules, including IgG that identify a similar amino acid sequence to EBNA-1 in myelin, inadvertently targeting myelin sheath and contributing to MS progression. Currently, no treatment exists for EBNA-1-induced MS apart from symptom management. Addressing this, a novel potential therapeutic avenue utilizing small interference RNAs (siRNA) has been designed. By targeting the conserved EBNA-1 gene sequences in EBV types 1 and 2, five potential siRNAs were identified in our analysis. Thorough evaluations encompassing off-target binding, thermodynamics and secondary structure elucidation, efficacy prediction, siRNA-mRNA sequence binding affinity exploration, melting temperature, and docking of siRNAs with human argonaute protein 2 (AGO2) were conducted to elucidate the siRNAs efficiency. These designed siRNA molecules harnessed promising silencing activity in the EBNA-1 gene encoding the EBNA-1 antigen protein and thus have the potential to mitigate the severity of this dangerous virus.

Abstract Image

直击爱泼斯坦-巴氏病毒要害:探索 siRNA 治疗缓解爱泼斯坦-巴氏病毒诱发的多发性硬化症的计算方法。
多发性硬化症(MS)是一种复杂的神经系统疾病,它不断挑战着我们对免疫系统与中枢神经系统(CNS)之间关键性相互作用的理解。这种疾病是由于免疫系统错误地攻击神经纤维保护层(即髓鞘)和神经纤维本身而引起的。这种神秘的疾病以脱髓鞘和各种临床表现为特征,促使人们探索其多方面的病因和潜在的治疗途径。研究揭示了爱泼斯坦巴氏病毒(EBV),特别是爱泼斯坦巴氏核抗原 1(ENA-1)与多发性硬化症之间的潜在联系。对 EBNA-1 抗原的免疫反应会引发抗 EBNA-1 分子的产生,包括识别出髓鞘中与 EBNA-1 类似氨基酸序列的 IgG,从而无意中靶向髓鞘,导致多发性硬化症的进展。目前,对于 EBNA-1 引起的多发性硬化症,除了对症治疗外,尚无其他治疗方法。为此,我们设计了一种利用小干扰 RNA(siRNA)的新型潜在治疗途径。通过靶向 EBV 1 型和 2 型中保守的 EBNA-1 基因序列,我们在分析中发现了五种潜在的 siRNA。为了阐明 siRNAs 的效率,我们进行了全面的评估,包括脱靶结合、热力学和二级结构阐明、功效预测、siRNA-mRNA 序列结合亲和力探索、熔化温度以及 siRNAs 与人类 argonaute 蛋白 2 (AGO2) 的对接。这些设计的 siRNA 分子对编码 EBNA-1 抗原蛋白的 EBNA-1 基因具有良好的沉默活性,因此有可能减轻这种危险病毒的严重性。
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
Neurogenetics
Neurogenetics 医学-临床神经学
CiteScore
3.90
自引率
0.00%
发文量
24
审稿时长
6 months
期刊介绍: Neurogenetics publishes findings that contribute to a better understanding of the genetic basis of normal and abnormal function of the nervous system. Neurogenetic disorders are the main focus of the journal. Neurogenetics therefore includes findings in humans and other organisms that help understand neurological disease mechanisms and publishes papers from many different fields such as biophysics, cell biology, human genetics, neuroanatomy, neurochemistry, neurology, neuropathology, neurosurgery and psychiatry. All papers submitted to Neurogenetics should be of sufficient immediate importance to justify urgent publication. They should present new scientific results. Data merely confirming previously published findings are not acceptable.
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