Institute of Virology, Technische Universität München, Helmholtz Zentrum München, München, Germany.
Max Planck Institute of Biochemistry, Martinsried, Germany.
Gastroenterology. 2015 Oct;149(4):1042-52. doi: 10.1053/j.gastro.2015.05.055. Epub 2015 Jun 5.
BACKGROUND & AIMS: Cancer therapies are being developed based on our ability to direct T cells against tumor antigens. Glypican-3 (GPC3) is expressed by 75% of all hepatocellular carcinomas (HCC), but not in healthy liver tissue or other organs. We aimed to generate T cells with GPC3-specific receptors that recognize HCC and used them to eliminate GPC3-expressing xenograft tumors grown from human HCC cells in mice.
We used mass spectrometry to obtain a comprehensive peptidome from GPC3-expressing hepatoma cells after immune-affinity purification of human leukocyte antigen (HLA)-A2 and bioinformatics to identify immunodominant peptides. To circumvent GPC3 tolerance resulting from fetal expression, dendritic cells from HLA-A2-negative donors were cotransfected with GPC3 and HLA-A2 RNA to stimulate and expand antigen-specific T cells.
Peptide GPC3367 was identified as a predominant peptide on HLA-A2. We used A2-GPC3367 multimers to detect, select for, and clone GPC3-specific T cells. These clones bound the A2-GPC3367 multimer and secreted interferon-γ when cultured with GPC3367, but not with control peptide-loaded cells. By genomic sequencing of these T-cell clones, we identified a gene encoding a dominant T-cell receptor. The gene was cloned and the sequence was codon optimized and expressed from a retroviral vector. Primary CD8(+) T cells that expressed the transgenic T-cell receptor specifically bound GPC3367 on HLA-A2. These T cells killed GPC3-expressing hepatoma cells in culture and slowed growth of HCC xenograft tumors in mice.
We identified a GPC3367-specific T-cell receptor. Expression of this receptor by T cells allows them to recognize and kill GPC3-positive hepatoma cells. This finding could be used to advance development of adoptive T-cell therapy for HCC.
我们能够定向利用 T 细胞针对肿瘤抗原,以此开发癌症疗法。磷脂酰聚糖-3(GPC3)在所有肝细胞癌(HCC)中表达 75%,但在健康的肝组织或其他器官中不表达。我们旨在生成具有 GPC3 特异性受体的 T 细胞,这些受体能够识别 HCC,并利用它们消除在小鼠中由人 HCC 细胞生长的表达 GPC3 的异种移植肿瘤。
我们使用质谱法从经免疫亲和纯化的 HLA-A2 表达的 GPC3 阳性肝癌细胞中获得全面的肽组,并使用生物信息学方法鉴定免疫优势肽。为了避免因胎儿表达而导致 GPC3 耐受,我们将 HLA-A2 阴性供体的树突状细胞与 GPC3 和 HLA-A2 RNA 共转染,以刺激和扩增抗原特异性 T 细胞。
肽 GPC3367 被鉴定为 HLA-A2 上的主要肽。我们使用 A2-GPC3367 三聚体来检测、选择和克隆 GPC3 特异性 T 细胞。这些克隆与 A2-GPC3367 三聚体结合,并在培养时分泌干扰素-γ,而与负载对照肽的细胞不结合。通过对这些 T 细胞克隆的基因组测序,我们鉴定出一个编码显性 T 细胞受体的基因。该基因被克隆,其序列经过密码子优化并从逆转录病毒载体中表达。表达转基因 T 细胞受体的原代 CD8+T 细胞特异性结合 HLA-A2 上的 GPC3367。这些 T 细胞在体外杀死表达 GPC3 的肝癌细胞,并减缓 HCC 异种移植肿瘤在小鼠中的生长。
我们鉴定出一种 GPC3367 特异性 T 细胞受体。T 细胞表达这种受体可使其识别并杀死 GPC3 阳性肝癌细胞。这一发现可用于推进 HCC 的过继性 T 细胞治疗的发展。
