We found a match
Your institution may have access to this item. Find your institution then sign in to continue.
- Title
Low abundance of naturally processed T-cell determinants following antigen pulsing of antigen-specific human B-cell lines.
- Authors
Moore, S. E. H.; Schofield, J. P.; Watts, C.
- Abstract
An attempt was made to recover naturally processed T-cell determinants following antigen pulsing of tetanus toxin-specific human B-cell clones with µg/ml amounts of antigen. Class II major histocompatibility complex (MHC) molecules were isolated from cells pulsed under optimal conditions and the eluted peptides displayed by reverse-phase high-performance liquid chromatography (HPLC). Antigen-pulsed and control-unpulsed cells showed virtually identical optical density (OD)215 profiles, although multiple peptides derived from the input antigen could be identified at the radiochemical level. At least four distinct HPLC fractions contained naturally processed versions of the determinant 830-844, detected using the specific T-cell clone Mix 111. Quantification of the most active fraction indicated that approximately 1 pmole of this determinant was recovered from ∼5 × 109 antigen-pulsed cells. Based on the amount of antigen processed following uptake on membrane immunoglobulin, and quantification of the biologically active material recovered, it was estimated that the efficiency of determinant capture was no greater than 1-2%. Further method development and a considerable increase in the number of cells used (>1010) would appear to be necessary before naturally processed determinants from exogenously pulsed antigens can be reliably and fully characterized. Finally, a theoretical analysis showed that accurate (± 0.01%) mass information alone could identify a limited number of candidate peptides from known or putative antigens.
- Subjects
T cells; B cells; TETANUS toxin; LYMPHOCYTES; ANTIGENS; IMMUNITY
- Publication
Immunology, 1995, Vol 85, Issue 4, p523
- ISSN
0019-2805
- Publication type
Article