The monoclonal antibody-specific immobilisation of erythrocyte antigens (MAIEA) test has been employed to investigate the Kell system using five monoclonal antibodies which recognise high frequency epitopes on the
93,000-molecular weight Kell glycoprotein: BRIC 18, BRIC 68, BRIC 107, BRIC 203 and 6-22. BRIC 107, which has anti-k-like (KEL2) specificity, identifies a distinct epitope, whilst competitive binding assays suggested that BRIC 203 (anti-Kp^bc), BRIC 18, BRIC 68 and 6-22 (anti K14) comprise an overlapping set of epitopes. The MAIEA assay has been very successful in confirming the assignment of most of the Kell and para-Kell antigens to the Kell protein. Due to the competitive nature of the assay and the fact that the monoclonal antibodies bind to different regions, the results also suggest the relative positions of some of the Kell antigens on the Kell protein; these appear to be located in at least five spatially distinct regions.
The MAIEA (monoclonal-antibody-specific immobilisation of erythrocyte antigens) assay has recently been developed for the assignment of red cell antigens, recognised by human alloantisera, to particular membrane components of the red cell membrane [17], This technique detects trimolecular complexes formed by the reaction of a human antibody and a mouse antibody with a particular red cell protein. A positive reaction, in an ELISA-type detection procedure, occurs if the epitopes to the human and mouse antibodies are present on the same membrane component but at different regions. In this report, we show how the MAIEA assay can be used to confirm the relationship between Cromer system antigens and the complement-regulatory protein, decay-accelerating factor (DAF, CD 55). In addition, the location of the antigens along the protein is postulated by using three anti-DAF monoclonal antibodies with specificities to different regions of DAF. Tc^a and Es^a are assigned provisionally to the first short-consensus repeat (SCR), UMC to the second SCR, Dr^a to the third SCR and Cr^a WES^a and WES^b to the fourth SCR or to the serine/threonine rich region of the DAF protein.
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