Immunoinformatics Approach-Multiple Peptides Vaccine Design from Glycoprotein E of Herpes Simplex Virus-3

Immunome research Pub Date : 2018-01-01 DOI:10.4172/1745-7580.1000164

S. O. Albagi, Safaa Hag Ahmed, Thana Eljozoli Mohamme, E. A. Adam, Mohammed A Hassan

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Abstract

Background: Herpes simplex virus (HSV) is a common human pathogen, causing infections of orofacial mucosal surfaces (HSV-1) and genital mucosal surfaces (HSV-2). Productive infection results in the formation of vesicular lesions in the mucosal epithelia, followed by spread of the virus to sensory neurons and establishment of a latent infection that may remain for the life of the host. Material and method: All sequences of glycoprotein E [Human herpes virus 3] were obtained from NCBI and these sequences were subjected to IEDB predicted tools, including B cell and T cell examination, with B cell having multiple tests such as epitopes prediction, surface accessibility and antigenicity prediction; T cell included MHC I and MHC II predicted tools. Finally we used population coverage to select a highest percent of peptides related with different alleles. Result: We obtained some candidate peptides as vaccine derived peptides from B cell test which had a highest score in Emini surface accessibility (“DEDKLDTNSVYEPYYHSDHAESSWVNRGESSRKAYDHNSPYIWPRNDYDGF”) of 21.807, and “LKFVDTPESL" with score 1.061 for Kolaskar and Tongaonkar antigenicity test, in another hand we got a highest affinity of peptides that interacted with major coverage of different alleles in MHC I (“KAYDHNSPY”) and in MHC II (“MWNYHSHVF”). Conclusion: The efficiency and safety degree in predicted candidate epitopes by computational examination methods are required to be estimated through studies of animal model, to check whether they are able to induce a good defending immune response or not with previous mentioned properties, and we considered this study as first promising peptide based vaccine of [Human herpes virus 3] glycoprotein E in comparison to the previous studies.

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免疫信息学方法-单纯疱疹病毒3型糖蛋白E多肽疫苗设计

背景:单纯疱疹病毒(HSV)是一种常见的人类病原体，可引起口面部粘膜表面感染(HSV-1)和生殖器粘膜表面感染(HSV-2)。生产性感染导致粘膜上皮形成水疱性病变，随后病毒扩散到感觉神经元，并建立潜伏感染，这种感染可能持续宿主的一生。材料和方法:糖蛋白E[人类疱疹病毒3]的所有序列均从NCBI获得，并对这些序列进行IEDB预测工具，包括B细胞和T细胞检查，其中B细胞进行表位预测、表面可及性和抗原性预测等多项测试;T细胞包括MHC I和MHC II预测工具。最后，我们利用种群覆盖率来选择与不同等位基因相关的肽的最高百分比。结果:我们从B细胞试验中获得了一些候选疫苗衍生肽，这些候选肽在Emini表面接近性(“DEDKLDTNSVYEPYYHSDHAESSWVNRGESSRKAYDHNSPYIWPRNDYDGF”)中得分最高，在Kolaskar和Tongaonkar抗原性试验中得分为1.061，另一方面，我们获得了与MHC I(“KAYDHNSPY”)和MHC II(“MWNYHSHVF”)中不同等位基因的主要覆盖相互作用的肽的亲和力最高。结论:通过计算检验方法预测的候选表位的有效性和安全性需要通过动物模型的研究来评估，以检验它们是否能够诱导具有上述特性的良好防御免疫反应，与以往的研究相比，我们认为本研究是第一个有前景的[人类疱疹病毒3]糖蛋白E肽基疫苗。

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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Immunome research

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