Yu Z, Liu X, McCarty T M, Diamond D J, Ellenhorn J D
Department of Surgery, City of Hope National Medical Center, Duarte, California, USA.
J Surg Res. 1997 May;69(2):337-43. doi: 10.1006/jsre.1997.5058.
P53 is an attractive target immunotherapy because it is overexpressed in up to one half of all malignancies, and its overexpression often correlates with a worsened prognosis. We wanted to determine the feasibility of targeting wild-type epitopes p53 on human tumor cells. HLA A2.1 transgenic mice were immunized with the immunodominant wild-type p53 peptide epitopes, p53(149-157) and p53(264-272), along with a pan-DR helper epitope peptide in incomplete Freund's adjuvant (IFA). Twelve days later, splenocytes were harvested and stimulated with syngeneic blast cells that had been acid-treated to remove endogenous peptide and p53 peptide-pulsed. The responding cells were subsequently restimulated weekly with acid washed, peptide-pulsed Jurkat cells transfected with HLA A2.1. Peptide specific activity was tested in a chromium release assay. The resulting cytotoxic T cells (CTL) were cloned by limiting dilution. Peptide specific CTL were generated against both p53(149-157) and p53(264-272. Only p53(149-157) specific CTL were able to recognize and lyse cells that overexpressed endogenous p53. CTL clones derived from the p53(149-157) cell line demonstrated high affinity and specificity for p53(149-157) when presented by HLA A2.1+ cells. The p53(149-157) specific CTL were tested for specificity against a variety of cultured human cell lines. The CTL clones only lysed cells that overexpressed p53 in the context of HLA A2.1 and did not lyse cells with normal p53 expression or cells that lacked HLA A2.1 expression. This study demonstrates the possibility of targeting tumors, which overexpress p53, and raises the possibility transferring the high affinity, p53 specific T cell receptors from the murine CTL to human T cells.
p53是免疫治疗的一个有吸引力的靶点,因为它在高达一半的所有恶性肿瘤中过度表达,并且其过度表达通常与预后恶化相关。我们想确定靶向人类肿瘤细胞上野生型p53表位的可行性。用免疫显性野生型p53肽表位p53(149 - 157)和p53(264 - 272)以及一种泛DR辅助表位肽在不完全弗氏佐剂(IFA)中免疫HLA A2.1转基因小鼠。12天后,收获脾细胞,并用经酸处理以去除内源性肽并脉冲加载p53肽的同基因母细胞刺激。随后,用经酸洗、脉冲加载肽且转染了HLA A2.1的Jurkat细胞每周对反应细胞进行再刺激。在铬释放试验中测试肽特异性活性。通过有限稀释法克隆产生的细胞毒性T细胞(CTL)。产生了针对p53(149 - 157)和p53(264 - 272)的肽特异性CTL。只有p53(149 - 157)特异性CTL能够识别并裂解过度表达内源性p53的细胞。当由HLA A2.1 +细胞呈递时,源自p53(149 - 157)细胞系的CTL克隆对p53(149 - 157)表现出高亲和力和特异性。测试了p53(149 - 157)特异性CTL对多种培养的人类细胞系的特异性。CTL克隆仅裂解在HLA A2.1背景下过度表达p53的细胞,而不裂解具有正常p53表达的细胞或缺乏HLA A2.1表达的细胞。这项研究证明了靶向过度表达p53的肿瘤的可能性,并提出了将来自鼠CTL的高亲和力、p53特异性T细胞受体转移到人类T细胞的可能性。
