Glycophorins and the MNS blood group system: a narrative review
Genghis H. Lopez, Catherine A. Hyland, Robert L. Flower
Abstract
The MNS blood group system, International Society of Blood Transfusion (ISBT) 002, is second after the ABO system. GYPA and GYPB genes encode MNS blood group antigens carried on glycophorin A (GPA), glycophorin B (GPB), or on variant glycophorins. A third gene, GYPE, produce glycophorin E (GPE) but is not expressed. MNS antigens arise from several genetic mechanisms. Single nucleotide variants (SNVs) contribute to the diversity of the MNS system. A new antigen SUMI (MNS50), p.Thr31Pro on GPA has been described in the Japanese population. Unequal crossing-over and gene conversion are the mechanisms forming hybrid glycophorins, usually from parent genes GYPA and GYPB. GYPE also contributes to gene recombination previously only described with GYPA. Recently, however, GYPE was shown to recombine with GYPB to form a GYP(B-E-B) hybrid. A GYP(B-E-B) hybrid allele encodes a mature GP(E-B) molecule expressing a trypsin-resistant M antigen but no S/s. Another novel glycophorin GP.MOT has been described carrying Mi a , Mur, MUT, and KIPP antigens. GP.MOT is encoded by a GYP(B-A) hybrid allele. Newly reported cases of haemolytic transfusion reaction (HTR) or haemolytic disease of the fetus and newborn (HDFN) due to antibodies to MNS antigens is a constant reminder of the clinical significance of the MNS system. In one HDFN case, anti-U and anti-D were detected in an Indian D-, S-s-U-mother. The S-s-U-phenotype is rare in Asians and Caucasians but it is more commonly found in the African populations.