Roser Hoffman scite author profile

Extended blood group genotyping is an invaluable tool used for prevention of alloimmunization. Genotyping is particularly suitable when antigens are weak, specific antisera are unavailable, or accurate phenotyping is problematic because of a disease state or recent transfusions. In addition, genotyping facilitates establishment of mass-scale patient-matched donor databases. However, standardization of genotyping technologies has been hindered by the lack of reference panels. A wellcharacterized renewable reference panel for standardization of blood group genotyping was developed. The panel consists of genomic DNA lyophilized and stored in glass vials. Genomic DNA was extracted in bulk from immortalized lymphoblastoid cell lines, generated by Epstein-Barr virus transformation of peripheral blood lymphocytes harvested from volunteer blood donors. The panel was validated by an international collaborative study involving 28 laboratories that tested each DNA panel member for 41 polymorphisms associated with 17 blood group systems. Overall, analysis of genotyping results showed >98% agreement with the expected outcomes, demonstrating suitability of the material for use as reference. Highest levels of discordance were observed for the genes CR1, CD55, BSG, and RHD. Although limited, observed inconsistencies and procedural limitations reinforce the importance of reference reagents to standardize and harmonize results. Results of stability and accelerated degradation studies support the suitability of this panel for use as reference reagent for blood group genotyping assay development and standardization.

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Two new Scianna variants causing loss of high prevalence antigens: ERMAP model and 3D analysis of the antigens

Floch

Lomas‐Francis

Vege

et al. 2022

Transfusion

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Background Scianna (Sc) antigens, seven high and two of low prevalence, are expressed on erythrocyte membrane‐associated protein (ERMAP). We investigated SC (ERMAP) in individuals who made antibodies to high prevalence Scianna antigens, and propose a 3D model for ERMAP to precisely localize the residues associated with the known antigens. Methods Serological testing and DNA sequencing was performed by standard methods. A 3D structural model was built using a multi‐template homology approach. Protein structures representing missense variants associated with the loss or gain of an antigen were generated. Residue accessibility and intraprotein interactions were compared with the wild‐type protein. Results Two new SC alleles, one with c.349C > T (p.Arg117Cys) in a woman from South India with anti‐Sc3 in her plasma, and a c.217_219delinsTGT (p.Arg73Cys) in an African‐American woman with an antibody to a new high prevalence antigen, termed SCAC, were identified. Six structural templates were used to model ERMAP. 3D analysis showed that residues key for Scianna antigen expression were all exposed at the surface of the extracellular domain. The p.Arg117Cys change was predicted to abolish interactions between residues 93 and 117, with no compensating interactions. Conclusion We confirm the extracellular location of Scianna residues responsible for antigen expression which predicts direct accessibility to antibodies. Loss of intraprotein interactions appear to be responsible for a Sc null and production of anti‐Sc3 with p.117Cys, SC*01 N.03, and for loss of a high prevalence antigen with p.73Cys, termed SCAC for Sc Arg to Cys. Comparative modeling aids our understanding of new alleles and Scianna antigen expression.

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117-P: Use of buccal cells for problematic high resolution HLA typing

Medis¹,

Marlowe²,

Hoffman³

et al. 2007

Human Immunology

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Roser Hoffman

Effect on gene expression of three allelic variants in GATA motifs of ABO, RHD, and RHCE regulatory elements

Validated Reference Panel from Renewable Source of Genomic DNA Available for Standardization of Blood Group Genotyping

Two new Scianna variants causing loss of high prevalence antigens: ERMAP model and 3D analysis of the antigens

117-P: Use of buccal cells for problematic high resolution HLA typing

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