Stoll Andrej, Bergmann Silke, Mummert Christiane, Mueller-Schmucker Sandra M, Spriewald Bernd M, Harrer Ellen G, Harrer Thomas
Infectious Diseases Unit, Department of Internal Medicine 3, University Hospital Erlangen, Friedrich-Alexander-University Erlangen-Nürnberg, Erlangen, Germany.
Department of Internal Medicine 5, University Hospital Erlangen, Friedrich-Alexander-University Erlangen-Nürnberg, Erlangen, Germany.
J Immunol Methods. 2015 Mar;418:9-18. doi: 10.1016/j.jim.2015.01.005. Epub 2015 Jan 26.
HIV-1 negative regulatory factor (Nef) can inhibit CTL recognition by downregulation of HLA-A and HLA-B on the cell surface. In contrast, HLA-C is not affected by Nef and a growing number of studies demonstrate an important role of HLA-C for the control of HIV-1. So far, only a limited number of HLA-C restricted CTL epitopes are known. As the mapping of new CTL epitopes is time and labor intensive, we investigated a novel method for the identification of HLA-C restricted CTL epitopes. B-lymphoblastoid cell lines (B-LCLs) and T2-cells were incubated with HIV-1 specific peptides and subsequently stained for HLA-C surface expression using the HLA-C specific antibody DT9. Peptides that led to increased HLA-C surface expression were used for stimulation of PBMC from HIV-1-infected patients. Subsequently, outgrowing cells were tested for peptide recognition in IFN-γ ELISPOT assays and HLA restriction of the recognized peptides was analyzed in ELISPOT assays using HLA-matched B-LCL. We observed that known HLA-C binding peptides increase HLA-C surface expression on T2-cells and on HLA-C0102 and HLA-C0702 homozygous B-LCL. Moreover, screening of HIV-1 Nef with overlapping peptides for potential C0702 restricted epitopes using this method revealed a total of 8 peptides which considerably increased cell surface expression of HLA-C. By epitope mapping and functional analysis of peptide-stimulated T-cell lines we were able to define the peptide YPLTFGWCY as a new C0702-restricted CTL epitope. These results show that the analysis of peptide induced HLA-C upregulation on B-LCL and T2-cells enables the efficient identification of new HLA-C restricted CTL epitopes.
HIV-1负调控因子(Nef)可通过下调细胞表面的HLA-A和HLA-B来抑制CTL识别。相比之下,HLA-C不受Nef影响,并且越来越多的研究表明HLA-C在控制HIV-1方面发挥着重要作用。到目前为止,已知的HLA-C限制性CTL表位数量有限。由于新CTL表位的定位既耗时又费力,我们研究了一种鉴定HLA-C限制性CTL表位的新方法。将B淋巴母细胞系(B-LCLs)和T2细胞与HIV-1特异性肽一起孵育,随后使用HLA-C特异性抗体DT9对HLA-C表面表达进行染色。导致HLA-C表面表达增加的肽用于刺激HIV-1感染患者的外周血单核细胞(PBMC)。随后,对生长出来的细胞进行IFN-γ ELISPOT分析以检测肽识别情况,并使用HLA匹配的B-LCL在ELISPOT分析中分析所识别肽的HLA限制性。我们观察到,已知的HLA-C结合肽可增加T2细胞以及HLA-C0102和HLA-C0702纯合B-LCL上的HLA-C表面表达。此外,使用该方法用重叠肽筛选HIV-1 Nef中潜在的C0702限制性表位,共发现8种肽可显著增加HLA-C的细胞表面表达。通过对肽刺激的T细胞系进行表位定位和功能分析,我们能够将肽YPLTFGWCY定义为一种新的C0702限制性CTL表位。这些结果表明,分析肽诱导的B-LCL和T2细胞上的HLA-C上调能够有效鉴定新的HLA-C限制性CTL表位。
