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基于跨膜蛋白 31(TMEM31)抗原的计算机分析设计新型多表位肽和 DNA 癌症疫苗用于治疗黑色素瘤。

In silico analysis of transmembrane protein 31 (TMEM31) antigen to design novel multiepitope peptide and DNA cancer vaccines against melanoma.

机构信息

Department of Biology, Science and Research Branch, Islamic Azad University, Tehran, Iran.

Department of Oncology, Cancer Prevention Research Center, Isfahan University of Medical Sciences, Isfahan, Iran.

出版信息

Mol Immunol. 2019 Aug;112:93-102. doi: 10.1016/j.molimm.2019.04.030. Epub 2019 May 9.

DOI:10.1016/j.molimm.2019.04.030
PMID:31079006
Abstract

Multiepitope cancer vaccines are announcing themselves as the future of melanoma treatment. Herein, high immunogenic regions of transmembrane protein 31 (TMEM31) antigen were selected according to cytotoxic T lymphocytes' (CTL) epitopes and major histocompatibility complex (MHC) binding affinity through in silico analyses. The 32-62, 77-105, and 125-165 residues of the TMEM31 were selected as the immunodominant fragments. They were linked together by RVRR and HEYGAEALERAG motifs to improve epitopes separation and presentation. In addition, to activate helper T lymphocytes (HTL), Pan HLA DR-binding epitope (PADRE) peptide sequence and tetanus toxin fragment C (TTFrC) were incorporated into the final construct. Also, the Beta-defensin conserved domain was utilized in the final construct as a novel adjuvant for Toll-like receptor 4/myeloid differentiation factor (TLR4-MD) activation. The CTL epitopes, cleavage sites, post-translational modifications, TAP transport efficiency, and B cells epitopes were predicted for the peptide vaccine. The final construct contained multiple CTL and B cell epitopes. In addition, it showed 93.55% and 99.13% population coverage in the world for HLA I and HLA II, respectively. According to these preliminary results, the multiepitope cancer vaccine can be an appropriate choice for further experimental investigations.

摘要

多表位癌症疫苗被认为是黑色素瘤治疗的未来。在此,通过计算机分析,根据细胞毒性 T 淋巴细胞 (CTL) 表位和主要组织相容性复合体 (MHC) 结合亲和力,选择跨膜蛋白 31 (TMEM31) 抗原的高免疫原性区域。选择 TMEM31 的 32-62、77-105 和 125-165 残基作为免疫优势片段。它们通过 RVRR 和 HEYGAEALERAG 基序连接在一起,以提高表位分离和呈递。此外,为了激活辅助性 T 淋巴细胞 (HTL),将 Pan HLA DR 结合表位 (PADRE) 肽序列和破伤风毒素片段 C (TTFrC) 掺入最终构建体中。此外,在最终构建体中利用 Beta-防御素保守结构域作为 Toll 样受体 4/髓样分化因子 (TLR4-MD) 激活的新型佐剂。对肽疫苗进行了 CTL 表位、切割位点、翻译后修饰、TAP 转运效率和 B 细胞表位的预测。最终构建体包含多个 CTL 和 B 细胞表位。此外,它在世界范围内针对 HLA I 和 HLA II 的群体覆盖率分别为 93.55%和 99.13%。根据这些初步结果,多表位癌症疫苗可以作为进一步实验研究的合适选择。

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