Background: Antigens of the MNS blood group system are located on two sialoglycoproteins, GPA and GPB, encoded by GYPA and GYPB. The molecular backgrounds of the low-frequency antigens Ny(a) and Os(a) are not known.
Study design and methods: Immunoblotting and a monoclonal antibody-specific immobilization of erythrocyte antigens (MAIEA) assay were used to analyze Os(a). PCR-amplified products of the coding exons of GYPA were studied by single-strand conformation polymorphism analysis, and exon 3 was sequenced. Synthetic peptides were used in hemagglutination-inhibition tests.
Results: Sequencing of GYPA exon 3 of two unrelated Ny(a+) persons revealed heterozygosity for a T194A base change encoding an Asp27Glu substitution. Immunoblotting with anti-Os(a) and an MAIEA assay with MoAbs to GPA showed that Os(a) is on GPA. Sequencing exon 3 of an Os(a+) person from the only family with Os(a) revealed heterozygosity for a C273T base change encoding a Pro54Ser substitution. A synthetic peptide representing part of GPA with the Os(a) mutation (VRTVYPSEEETGE) completely inhibited anti-Os(a), whereas the control peptide (VRTVYPPEEETGE) did not inhibit anti-Os(a).
Conclusion: Ny(a) and Os(a) are low-frequency antigens of the MNS blood group system that represent Asp27Glu and Pro54Ser substitutions in GPA, respectively.