Abstract
A and B alleles at the ABO genetic locus specify A and B glycosyltransferases that catalyze the biosynthesis of A and B oligosaccharide antigens, respectively, of blood group ABO system which is important in transfusion and transplantation medicine. GBGT1 gene encodes Forssman glycolipid synthase (FS), another glycosyltransferase that produces Forssman antigen (FORS1). Humans are considered to be Forssman antigen-negative species without functional FS. However, rare individuals exhibiting Apae phenotype carry a dominant active GBGT1 gene and express Forssman antigen on RBCs. Accordingly, FORS system was recognized as the 31st blood group system. Mouse ABO gene encodes a cis-AB transferase capable of producing both A and B antigens. This murine enzyme contains the same GlyGlyAla tripeptide sequence as FSs at the position important for the determination of sugar specificity. We, therefore, transfected the expression construct into appropriate recipient cells and examined whether mouse cis-AB transferase may also exhibit FS activity. The result was positive, confirming the crosstalk between the ABO and FORS systems. Further experiments have revealed that the introduction of this tripeptide sequence to human A transferase conferred some, although weak, FS activity, suggesting that it is also involved in the recognition/binding of acceptor substrates, in addition to donor nucleotide-sugars.
Highlights
The ABO system is one of the most important blood group systems in transfusion medicine[1,2]
Conservation of GlyGlyAla (GGA) tripeptide sequence in the majority of GBGT1 gene at the position corresponding to codons 266–268 of human blood group A and B transferases
It should be noted that several fish GBGT1 genes contain the GlyGlyAla tripeptide
Summary
The ABO system is one of the most important blood group systems in transfusion medicine[1,2] This system is composed of A and B oligosaccharide antigens expressed on red blood cells (RBCs), and anti-A and anti-B antibodies against those antigens in serum. A and B alleles encode proteins that are different by 4 amino acid residues at codons 176, 235, 266, and 268 They are Arg, Gly, Leu, and Gly in A transferase, and Gly, Ser, Met, and Ala in B transferase. Forssman glycolipid is immunologically and chemically distinct from blood group A and B structures, GBGT1 gene is different from ABO gene, and anti-Forssman antigen antibodies exist. Why and how Forssman glycan is expressed in cancer remains a mystery
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