A subset of HLA-B27 molecules contains peptides much longer than nonamers.
Abstract
An unusual monoclonal antibody (MARB4) directed against HLA-B27 that reacts with only approximately 5-20% of the cell surface HLA-B27 was used for large-scale purification of these molecules. Subsequent mass spectrometry of HLA-B27-bound peptides showed that the minor MARB4-reactive population contained peptides primarily from 900 to 4000 Da in size (approximately 8-33 amino acid residues), whereas the major HLA-B27 population contained peptides in the mass range of 900-1400 Da (approximately 8-12 amino acid residues). Thus, a subset of HLA-B27 molecules binds to peptides much longer than nonamers. Typical HLA-B27-binding peptides contain arginine in position 2. Further analysis by Edman sequencing of the pooled bound peptides revealed that the major population contained substantial amounts of arginine at positions 1 and 9 (40-50%) and exclusively arginine at position 2, as expected. The minor population of peptides also contained detectable amounts of arginine at these positions, but at the level of only approximately 10%; no marked enrichment at any position was observed. These long HLA-B27-bound peptides could represent either intermediates in the formation of nonamers or adventitiously bound peptides. Lastly, in the TAP2 mutant cell line BM36.1 transfected with HLA-B*2705, MARB4-reactive HLA-B27 molecules were absent from the cell surface, indicating that the peptide transporter was required for delivery of the long peptides. Thus, during the folding of class I heavy chains, peptides of diverse lengths are available and participating.
- Publication:
-
Proceedings of the National Academy of Science
- Pub Date:
- February 1994
- DOI:
- 10.1073/pnas.91.4.1534
- Bibcode:
- 1994PNAS...91.1534U