The Cs a and Cs b Red Cell Antigens of the Cost Blood Group Collection Correspond to the HNA-3a and HNA-3b Neutrophil Antigens: Unexpected Twins with Implications for Sickle Cell Anemia

Recent genome-wide association and murine studies identified the human neutrophil antigen 3a/b polymorphism (HNA-3a/b) in SLC44A2 (rs2288904-G/A) as a risk factor in venous thromboembolism (VTE). We tested whether this polymorphism associates with clinical features in SCA patients in whose VTE and s...

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Published in:Blood 2023-11, Vol.142 (Supplement 1), p.698-698
Main Authors: De Oliveira Rios, Jonathan, Soudry, Alisa, Duval, Romain, Raneri, Alexandre, Poyot, Thomas, Babinet, Jérome, De Montalembert, Mariane, Regina Bonini Domingos, Claudia, Le Van Kim, Caroline, Romana, Marc, Peyrard, Thierry, Azouzi, Slim
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Language:English
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Summary:Recent genome-wide association and murine studies identified the human neutrophil antigen 3a/b polymorphism (HNA-3a/b) in SLC44A2 (rs2288904-G/A) as a risk factor in venous thromboembolism (VTE). We tested whether this polymorphism associates with clinical features in SCA patients in whose VTE and stroke are frequently encountered complications. Incidentally, we discovered that rare subjects with the homozygous HNA-3b/b genotype (genotype frequency < 2%) also carry the uncommon Cs(a-) red cell phenotype. Despite its discovery more than 50 years ago, the molecular basis of this red cell phenotype and the presumptive protein carrier for the antigens of the COST blood group collection (Cs a and Cs b) has remained unknown. Inspired by this fortuitous discovery, we hypothesized that rs2288904 and COST antigens are closely associated. Thus, we genotyped this SNP in a cohort of 35 Cs(a-) subjects and found that all of them showed a HNA-3b/b genotype, indicating that the high-frequency allele of rs2288904 (HNA-3a; 461G) encoding Arg154 might encode the Cs a antigen (COST1). Interestingly, anti-Cs a does not react with SLC44A2 null RBCs (exceptional VER- blood type) and SLC44A2 knockout K562 cell line, confirming that the COST antigens are carried on this protein. In addition, using a panel of K562 cells expressing HNA-3a or 3b antigens developed by CRISPR/Cas9 genome editing, we confirmed that anti-Cs a recognizes the HNA-3a antigen. Overall, our results confirmed that HNA-3 and COST antigens have the same molecular basis. As a result, the Cs a and Cs b red cell antigens can now be included in the CTL2 blood group system, encoded by the SLC44A2 gene. This new finding could be of medical and biological value because anti-HNA-3a may be responsible for severe cases of neonatal neutropenia and transfusion-related acute lung injury (TRALI). Current testing for HNA-3a antibodies includes the granulocyte agglutination test and granulocyteindirect immunofluorescence test, as recommended by the ISBT Working Party on Granulocyte Immunobiology. These classical methods, however, are cumbersome because they require fresh granulocytes that have to be prepared daily and used immediately. Consequently, screening for HNA-3a antibodies is restricted to a few expert laboratories. Therefore, we propose to use the simple indirect antiglobulin red cell agglutination test (IAT) and Cs(a-) RBCs to screen for this antibody in the plasma of donors and patients. Finally, given that the star
ISSN:0006-4971
1528-0020
DOI:10.1182/blood-2023-178250