Immunoinformatics prediction of potential immunodominant epitopes from human coronaviruses and association with autoimmunity.

IF 2.9 4区 医学 Q2 GENETICS & HEREDITY Immunogenetics Pub Date : 2022-04-01 Epub Date: 2022-01-10 DOI:10.1007/s00251-021-01250-5
Shilu Mathew, Aisha D Fakhroo, Maria Smatti, Asmaa A Al Thani, Hadi M Yassine
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引用次数: 1

Abstract

Cross-reactivity between different human coronaviruses (HCoVs) might contribute to COVID-19 outcomes. Here, we aimed to predict conserved peptides among different HCoVs that could elicit cross-reacting B cell and T cell responses. Three hundred fifty-one full-genome sequences of HCoVs, including SARS-CoV-2 (51), SARS-CoV-1 (50), MERS-CoV (50), and common cold species OC43 (50), NL63 (50), 229E (50), and HKU1 (50) were downloaded aligned using Geneious Prime 20.20. Identification of epitopes in the conserved regions of HCoVs was carried out using the Immune Epitope Database (IEDB) to predict B- and T-cell epitopes. Further, we identified sequences that bind multiple common MHC and modeled the three-dimensional structures of the protein regions. The search yielded 73 linear and 35 discontinuous epitopes. A total of 16 B-cell and 19 T-cell epitopes were predicted through a comprehensive bioinformatic screening of conserved regions derived from HCoVs. The 16 potentially cross-reactive B-cell epitopes included 12 human proteins and four viral proteins among the linear epitopes. Likewise, we identified 19 potentially cross-reactive T-cell epitopes covering viral proteins. Interestingly, two conserved regions: LSFVSLAICFVIEQF (NSP2) and VVHSVNSLVSSMEVQSL (spike), contained several matches that were described epitopes for SARS-CoV. Most of the predicted B cells were buried within the SARS-CoV-2 protein regions' functional domains, whereas T-cell stretched close to the functional domains. Additionally, most SARS-CoV-2 predicted peptides (80%) bound to different HLA types associated with autoimmune diseases. We identified a set of potential B cell and T cell epitopes derived from the HCoVs that could contribute to different diseases manifestation, including autoimmune disorders.

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人冠状病毒潜在免疫优势表位的免疫信息学预测及其与自身免疫的关系
不同人类冠状病毒(hcov)之间的交叉反应可能导致COVID-19的结果。在这里,我们的目的是预测不同hcov之间可能引起交叉反应的B细胞和T细胞反应的保守肽。下载了351条hcov全基因组序列,包括SARS-CoV-2(51条)、SARS-CoV-1(50条)、MERS-CoV(50条)和普通感冒物种OC43(50条)、NL63(50条)、229E(50条)和HKU1(50条)。利用免疫表位数据库(Immune Epitope Database, IEDB)对hcov保守区域的表位进行鉴定,预测B细胞和t细胞表位。此外,我们确定了结合多个常见MHC的序列,并模拟了蛋白质区域的三维结构。搜索得到73个线性表位和35个不连续表位。通过对hcov保守区进行全面的生物信息学筛选,共预测了16个b细胞和19个t细胞表位。16个潜在交叉反应的b细胞表位包括线性表位中的12个人蛋白和4个病毒蛋白。同样,我们确定了19个潜在的交叉反应t细胞表位,覆盖病毒蛋白。有趣的是,两个保守区域:LSFVSLAICFVIEQF (NSP2)和VVHSVNSLVSSMEVQSL (spike)包含几个被描述为SARS-CoV表位的匹配。大多数预测的B细胞被埋在SARS-CoV-2蛋白区域的功能域内,而t细胞则伸展到功能域附近。此外,大多数SARS-CoV-2预测了与自身免疫性疾病相关的不同HLA类型结合的肽(80%)。我们确定了一组来自hcov的潜在B细胞和T细胞表位,这些表位可能导致不同的疾病表现,包括自身免疫性疾病。
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来源期刊
Immunogenetics
Immunogenetics 医学-免疫学
CiteScore
6.20
自引率
6.20%
发文量
48
审稿时长
1 months
期刊介绍: Immunogenetics publishes original papers, brief communications, and reviews on research in the following areas: genetics and evolution of the immune system; genetic control of immune response and disease susceptibility; bioinformatics of the immune system; structure of immunologically important molecules; and immunogenetics of reproductive biology, tissue differentiation, and development.
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