Identification of tumour-specific peptide(s) hidden within the groove of human leucocyte antigens is a crucial prerequisite for peptide vaccine therapy. Conventionally, the peptide(s) are isolated by mild acid extraction (MA) technique followed by sequential ultra-filtrations. Here we describe a new approach for peptide isolation using the immunobead purification (IB-P) technique in conjunction with reverse-phase high-performance liquid chromatography. The obtained data were validated by SDS-PAGE followed by the silver staining technique. The results can be summarised as follows: (1) Comparison of class I-associated peptides isolated from a bladder cell line before and after the correction of class I antigens by gene transfection followed by IB-P technique showed the presence of peptides only from the class I-corrected cells. The data were confirmed using the silver staining technique as a way of detecting individual peptide bands. (2) Whilst peptides could be isolated by both techniques, the MA method led to the isolation of peptides from both class I-negative and class I-positive Fen cell lysates. (3) The IB-P approach could be used for isolation of class I-associated peptides from a normal kidney tissue. The data showed the high efficiency of the IB-P approach for isolation of class I-associated peptides. Unlike the MA technique, where the presence of non- class I-associated peptides was a problem, the IB-P approach isolated only peptides associated with the class I antigens. In addition, the data showed the feasibility of extracting peptides from tissue fragments by the IB-P method. The approach presented here may assist the future development of peptide vaccine therapy in urological cancers.

Keywords:
Acid, mild, HLA antigens, Peptide, High-performance liquid chromatography, Immunobead purification
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© 2002 S. Karger AG, Basel
2002
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