Computational Prediction of Multi-Epitopes Vaccine from Envelope E Protein against Louping Ill Virus via Reverse Vaccinology

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Abstract

Louping ill disease is a zoonotic viral disease caused by louping ill virus in the genus Flavivirus. It belongs to the tick-borne flavivirus that is a part of the tick-borne encephalitis virus complex.The envelope E protein of louping ill virus is the major structural protein that plays an important role in membrane binding and inducing a protective immune response.The aim of the present study was to design multi epitopes vaccine from the envelope E glycoprotein against louping ill virus using immunoinformatic tools that elicited humoral and cellular immunity. Eighteen envelope E protein sequences were retrieved from NCBI and subjected to various immunoinformatics tools from IEDB to assess their conservancy, surface accessibility and antigenicity as promising epitopes against B cells. The binding affinity of the conserved predicted epitopes was analyzed against MHC-I and MHC-II alleles of the T cells. The predicted epitopes were further assessed for their population coverage. For B-cell 25, 18 and 12 epitopes were predicted as linear conserved epitopes, surface accessibility and antigenic respectively. However, nine epitopes overlapped all the B cell prediction tools. Among them three epitopes (205-TAEHLP-210,336-KPCR-339 and 349-SPDV-352) were proposed as B cell epitopes. For T cell, 75 epitopes were found to interact with MHC-I alleles. The epitopes 130-YVYDANKV-138and356-MLITPNPTI-364 were proposed as a peptide vaccine since they interacted with the highest number of MHC-1 alleles.Moreover a total of 195core epitopes were found to interact with MHC-II alleles. The core epitopes 130-YVYDANKV-138, 219-WFNDLALPW-227, 415-VIGEHAWDF-423 and 462-VALAWLGLN-470 interacted with higher number of MHC-II alleles and proposed as vaccine since they demonstrated high affinity to MHC-II alleles.The population coverage epitopes set for MHC-I and MHC-II alleles was 74.69% and 99.98%, respectively. While the epitopes set for all T cell, proposed epitopes was 100%. Nine epitopes were predicted eliciting B and T cells and proposed as vaccine candidates against louping ill virus. However, these proposed epitopes require clinical trials studies to ensure their efficacy as vaccine candidates.
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抗娄平病病毒包膜E蛋白多表位疫苗的逆向疫苗学计算预测
娄平病是由娄平病黄病毒属病毒引起的一种人畜共患病毒性疾病。它属于蜱传黄病毒,是蜱传脑炎病毒复合体的一部分。娄坪病病毒包膜E蛋白是娄坪病病毒的主要结构蛋白,在膜结合和诱导保护性免疫应答中起重要作用。本研究的目的是利用免疫信息学工具从包膜E糖蛋白设计抗louping病病毒的多表位疫苗,从而引发体液和细胞免疫。从NCBI中检索了18个包膜E蛋白序列,并对IEDB的各种免疫信息学工具进行了评估,以评估它们作为B细胞有希望的表位的保护性、表面可及性和抗原性。分析保守预测表位对T细胞MHC-I和MHC-II等位基因的结合亲和力。预测的表位进一步评估其人口覆盖率。b细胞25、18和12个表位分别为线性保守表位、表面可及性和抗原性。然而,9个表位与所有B细胞预测工具重叠。其中3个表位(205- taehlp -210,336- kpcr -339和349-SPDV-352)被提出作为B细胞表位。对于T细胞,发现75个表位与mhc - 1等位基因相互作用。表位130- yvydankv -138和356- mlitpnpti -364被提议作为肽疫苗,因为它们与MHC-1等位基因的相互作用数量最多。此外,共发现195个核心表位与MHC-II等位基因相互作用。核心表位130- yvydankv -138、219-WFNDLALPW-227、415-VIGEHAWDF-423和462-VALAWLGLN-470与大量MHC-II等位基因相互作用,由于它们与MHC-II等位基因具有高亲和力,因此被建议作为疫苗。MHC-I和MHC-II等位基因的群体覆盖表位分别为74.69%和99.98%。而所有T细胞的表位,建议的表位是100%。预测了9个表位可诱导B细胞和T细胞,并提出了作为抗猪流感病毒的候选疫苗。然而,这些建议的表位需要临床试验研究,以确保其作为候选疫苗的有效性。
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