van der Heeft E, ten Hove G J, Herberts C A, Meiring H D, van Els C A, de Jong A P
Laboratory of Organic Analytical Chemistry and Laboratory of Vaccine Development and Immune Mechanisms, National Institute of Public Health and the Environment, The Netherlands.
Anal Chem. 1998 Sep 15;70(18):3742-51. doi: 10.1021/ac9801014.
A microcapillary column switching high-performance liquid chromatography (HPLC) system was developed for the separation of major histocompatibility complex (MHC) class I associated peptides. Combination of the column switching system with electrospray ionization mass spectrometry (ESIMS) enabled the detection and identification of the peptides at low-femtomole levels. Sample volumes of 30-50 microL were injected and concentrated onto a short, 100-micron-i.d. precolumn. The precolumn was coupled to a 100-micron-i.d. reversed-phase analytical HPLC column via a six-port valve. Peptides were separated on the analytical column using an ESI-compatible mobile phase at a flow rate of 0.5 microL/min. Peptides were eluted directly into the ESI source of either a magnetic sector MS or an ion trap MS. Peptides associated with human leukocyte antigen A*0201 molecules were determined in immunoaffinity-purified extracts from either measles virus infected cells or uninfected cells by microcapillary column switching HPLC-ESIMS. The approach toward detection of virus-specific peptides we used was based on the comparison of ion chromatograms obtained from the LC-MS analysis of extracts from virally infected cells and their uninfected counterparts. In this way, the molecular mass of peptides unique to virus infected cells was obtained. The utility of the system is demonstrated by the identification of a candidate epitope. Microcapillary column switching HPLC was used along with ESI ion trap tandem MS to identify the naturally processed viral peptide KLWESPQEI. This peptide was found to derive from the measles virus nonstructural protein C. The approach described here provides a versatile and sensitive method for the direct identification of viral peptides associated with MHC class I molecules.
开发了一种微毛细管柱切换高效液相色谱(HPLC)系统,用于分离主要组织相容性复合体(MHC)I类相关肽段。该柱切换系统与电喷雾电离质谱(ESIMS)联用,能够在低飞摩尔水平检测和鉴定这些肽段。进样30 - 50微升的样品,并将其浓缩到一根短的、内径为100微米的预柱上。预柱通过一个六通阀与一根内径为100微米的反相分析HPLC柱相连。使用与电喷雾电离兼容的流动相,以0.5微升/分钟的流速在分析柱上分离肽段。肽段直接洗脱到磁扇形质谱仪或离子阱质谱仪的电喷雾电离源中。通过微毛细管柱切换HPLC - ESIMS在免疫亲和纯化的麻疹病毒感染细胞或未感染细胞的提取物中测定与人白细胞抗原A*0201分子相关的肽段。我们用于检测病毒特异性肽段的方法是基于对病毒感染细胞提取物及其未感染对应物的液相色谱 - 质谱分析所得离子色谱图的比较。通过这种方式,获得了病毒感染细胞特有的肽段的分子量。通过鉴定一个候选表位证明了该系统的实用性。微毛细管柱切换HPLC与电喷雾电离离子阱串联质谱联用,鉴定出天然加工的病毒肽KLWESPQEI。发现该肽段源自麻疹病毒非结构蛋白C。本文所述方法为直接鉴定与MHC I类分子相关的病毒肽段提供了一种通用且灵敏的方法。
