Salazar Lupe G, Fikes John, Southwood Scott, Ishioka Glenn, Knutson Keith L, Gooley Theodore A, Schiffman Kathy, Disis Mary L
Tumor Vaccine Group, Division of Oncology, University of Washington, Seattle, Washington, USA.
Clin Cancer Res. 2003 Nov 15;9(15):5559-65.
The purpose of this study was to immunize patients with HER-2/neu-overexpressing cancer with a multipeptide vaccine comprised of four class II HER-2/neu peptides that had been identified as the most immunogenic in a previous clinical trial. Furthermore, we questioned whether MHC binding affinity could predict the in vivo immunogenicity of the HER-2/neu helper peptides.
Four putative class II HER-2/neu peptides, which were found to generate detectable specific T-cell responses (stimulation index > 2) in a majority of patients in a previous study, were used to formulate a single vaccine. The multipeptide vaccine was administered intradermally with granulocyte macrophage colony-stimulating factor as an adjuvant. Ten patients with HER-2/neu overexpressing breast or lung cancer were enrolled. HER-2/neu peptide-and protein-specific T cell and antibody immune responses were measured. Competitive inhibition assays were used to analyze the class II HER-2/neu peptides for their binding affinity to 14 common HLA-DR alleles.
Twenty-five percent of patients developed HER-2/neu peptide-specific T-cell immunity, and 50% developed HER-2/neu peptide-specific antibody immunity. No patient developed HER-2/neu protein-specific T cell or antibody immunity. The majority of peptides exhibited high binding affinity, in vitro, to >/==" BORDER="0">3 of the 14 DR alleles analyzed.
The group of peptides used in this study demonstrated high binding affinity to multiple DR alleles suggesting that in vitro binding affinity may be able to predict the in vivo immunogenicity of class II peptides. However, only a minority of patients immunized with the multipeptide vaccine developed HER-2/neu peptide-specific T cell or antibody immunity, and none developed HER-2/neu protein-specific immunity.
本研究的目的是用一种多聚肽疫苗对HER-2/neu过表达癌症患者进行免疫,该疫苗由四种II类HER-2/neu肽组成,这些肽在先前的一项临床试验中被确定为免疫原性最强的。此外,我们还质疑MHC结合亲和力是否能够预测HER-2/neu辅助肽的体内免疫原性。
在先前的一项研究中发现,四种假定的II类HER-2/neu肽能在大多数患者中产生可检测到的特异性T细胞反应(刺激指数>2),用它们来制备单一疫苗。多聚肽疫苗与粒细胞巨噬细胞集落刺激因子一起皮内注射作为佐剂。招募了10名HER-2/neu过表达的乳腺癌或肺癌患者。检测HER-2/neu肽和蛋白特异性T细胞及抗体免疫反应。采用竞争抑制试验分析II类HER-2/neu肽与14种常见HLA-DR等位基因的结合亲和力。
25%的患者产生了HER-2/neu肽特异性T细胞免疫,50%的患者产生了HER-2/neu肽特异性抗体免疫。没有患者产生HER-2/neu蛋白特异性T细胞或抗体免疫。在体外,大多数肽对所分析的14种DR等位基因中的> / == " BORDER = "0"> 3种表现出高结合亲和力。
本研究中使用的肽组对多种DR等位基因表现出高结合亲和力,这表明体外结合亲和力可能能够预测II类肽的体内免疫原性。然而,用多聚肽疫苗免疫的患者中只有少数产生了HER-2/neu肽特异性T细胞或抗体免疫,没有患者产生HER-2/neu蛋白特异性免疫。