Adotévi Olivier, Mollier Karine, Neuveut Christine, Cardinaud Sylvain, Boulanger Emmanuelle, Mignen Blandine, Fridman Wolf-Hervé, Zanetti Maurizio, Charneau Pierre, Tartour Eric, Lemonnier François, Langlade-Demoyen Pierre
Institut National de la Sante et de la Recherche Medicale U255, Université René Descartes, Unité d'Immunologie Biologique, Hôpital Européen Georges Pompidou, Assistance-Public Hôpitaux de Paris, France.
Clin Cancer Res. 2006 May 15;12(10):3158-67. doi: 10.1158/1078-0432.CCR-05-2647.
The human telomerase reverse transcriptase (hTERT) is considered as a potential target for cancer immunotherapy because it is preferentially expressed in tumor cells. To increase the applicability of hTERT-based immunotherapy, we set out to identify CTL epitopes in hTERT restricted by HLA-B*0702 molecule, a common MHC class I allele.
HLA-B0702-restricted peptides from hTERT were selected by using a method of epitope prediction and tested for their immunogenicity in human (in vitro) and HLA-B0702 transgenic mice (in vivo).
All the six hTERT peptides that were predicted to bind to HLA-B0702 molecule were found to induce primary human CTL responses in vitro. The peptide-specific CD8+ CTL lines were tested against various hTERT+ tumor cells. Although differences were observed according to the tumor origin, only three CTL lines specific for p277, p342, and p351 peptides exhibited cytotoxicity against tumor cells in a HLA-B0702-restricted manner. In addition, this cytotoxicity was inhibited by the addition of peptide-loaded cold target cells and indicated that these epitopes are naturally processed and presented on the tumor cells. Further, in vivo studies using humanized HLA-B*0702 transgenic mice showed that all the candidate peptides were able to induce CTL responses after peptide immunization. Furthermore, vaccination with a plasmid DNA encoding full-length hTERT elicited peptide-specific CTL responses, indicating that these epitopes are efficiently processed in vivo.
Together with previously reported hTERT epitopes, the identification of new CTL epitopes presented by HLA-B*0702 increases the applicability of hTERT-based immunotherapy to treating cancer.
人端粒酶逆转录酶(hTERT)被认为是癌症免疫治疗的一个潜在靶点,因为它在肿瘤细胞中优先表达。为了提高基于hTERT的免疫治疗的适用性,我们着手鉴定受常见的MHC I类等位基因HLA - B*0702分子限制的hTERT中的CTL表位。
通过表位预测方法从hTERT中选择受HLA - B0702限制的肽,并在人(体外)和HLA - B0702转基因小鼠(体内)中测试其免疫原性。
预测与HLA - B0702分子结合的所有六种hTERT肽在体外均能诱导原发性人CTL反应。针对各种hTERT +肿瘤细胞测试了肽特异性CD8 + CTL系。尽管根据肿瘤来源观察到差异,但只有三种针对p277、p342和p351肽的CTL系以HLA - B0702限制的方式对肿瘤细胞表现出细胞毒性。此外,添加负载肽的冷靶细胞可抑制这种细胞毒性,表明这些表位在肿瘤细胞上自然加工并呈递。此外,使用人源化HLA - B*0702转基因小鼠的体内研究表明,所有候选肽在肽免疫后均能诱导CTL反应。此外,用编码全长hTERT的质粒DNA进行疫苗接种引发了肽特异性CTL反应,表明这些表位在体内被有效加工。
与先前报道的hTERT表位一起,HLA - B*0702呈现的新CTL表位的鉴定增加了基于hTERT的免疫治疗在癌症治疗中的适用性。
