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Genetic and mechanistic evaluation for the weak A phenotype in Ael blood type with IVS6 + 5G>A ABO gene mutation

Background and Objectives Ael is a rare blood type that is characterized by weak agglutination of RBCs when reacts with anti‐A antibody in adsorption–elution test. Although IVS6 + 5G→A mutation is known to associate with the Ael blood type, genetic and mechanistic evaluation for the weak agglutinati...

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Bibliographic Details
Published in:Vox sanguinis 2015-01, Vol.108 (1), p.64-71
Main Authors: Chen, D.-P., Sun, C.-F., Ning, H.-C., Peng, C.-T., Wang, W.-T., Tseng, C.-P.
Format: Article
Language:English
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Summary:Background and Objectives Ael is a rare blood type that is characterized by weak agglutination of RBCs when reacts with anti‐A antibody in adsorption–elution test. Although IVS6 + 5G→A mutation is known to associate with the Ael blood type, genetic and mechanistic evaluation for the weak agglutination of Ael with IVS6 + 5G→A mutation has not yet been completely addressed. Materials and Methods In this study, five cases of confirmed Ael individuals were analysed. The cDNAs for the Ael alleles were obtained by cloning method for sequence analyses. The erythroleukemia K562 cells were used as the cell study model and were transfected with the Ael expression construct. Flow cytometry analysis was then performed to determine the levels of surface antigen expression. Results The results indicated that IVS6 + 5G→A attributes to all cases of Ael. RT‐PCR analyses revealed the presence of at least 10 types of aberrant Ael splicing transcripts. Most of the transcripts caused early termination and produced non‐functional protein during translation. Nevertheless, the transcript without exons 5–6 was predicted to generate functional Ael glycosyltransferase lacking 57 amino acids at the N‐terminal segment. When the exons 5–6 deletion transcript was stably expressed in the K562 cells, weak agglutination of the cells can be induced by adding anti‐A antibody followed by adsorption–elution test. Conclusion This study demonstrates that aberrant splicing of A transcripts contributes to weak A expression and the weak agglutination of Ael‐RBCs, adding to the complexity for the regulatory mechanisms of ABO gene expression.
ISSN:0042-9007
1423-0410
DOI:10.1111/vox.12196