表位
CTL公司*
细胞毒性T细胞
生物
人类白细胞抗原
CD8型
抗原
癌症免疫疗法
免疫学
癌症研究
病毒学
分子生物学
免疫疗法
免疫系统
遗传学
体外
作者
Yoshihiro Miyahara,Hiroaki Naota,Lijie Wang,Atsunori Hiasa,Megumi Goto,Masato Watanabe,Shigehisa Kitano,Satoshi Okumura,Tetsushi Takemitsu,Atsushi Yuta,Yuichi Majima,François A. Lemonnier,Thierry Boon,Hiroshi Shiku
标识
DOI:10.1158/1078-0432.ccr-04-2585
摘要
Abstract Purpose: For identification of CTL epitopes useful for cancer vaccines, it is crucial to determine whether cognate epitopes are presented on the cell surface of target cancer cells through natural processing of endogenous proteins. For this purpose, we tried to use the cellular machinery of both mice and human to define naturally processed CTL epitopes derived from two “cancer germ line” genes, MAGE-A4 and SAGE. Experimental Design: We vaccinated newly produced HLA-A2402 transgenic mice with DNA plasmids encoding target antigens. Following screening of synthesized peptides by splenic CD8+ T cells of vaccinated mice, we selected candidate epitopes bound to HLA-A2402. We then examined whether human CD8+ T cells sensitized with autologous CD4+ PHA blasts transduced by mRNA for the cognate antigens could react with these selected peptides in an HLA-A2402-restricted manner. Results: After DNA vaccination, murine CD8+ T cells recognizing MAGE-A4143-151 or SAGE715-723 in an HLA-A2402-restricted manner became detectable. Human CTLs specific for these two peptides were generated after sensitization of HLA-A2402-positive CD8+ T cells with autologous CD4+ PHA blasts transduced with respective mRNA. CTL clones were cytotoxic toward tumor cell lines expressing HLA-A2402 and cognate genes. Taken together, these CTL epitopes defined in HLA-A24 transgenic mice are also processed and expressed with HLA-A2402 in human cells. The presence of SAGE715-723-specific precursors was observed in HLA-A2402-positive healthy individuals. Conclusions: Two novel HLA-A2402-restricted CTL epitopes, MAGE-A4143-151 and SAGE715-723, were identified. Our approach assisted by cellular machinery of both mice and human could be widely applicable to identify naturally processed CTL epitopes.
科研通智能强力驱动
Strongly Powered by AbleSci AI