Identification of a novel RHCECe (829G > A) allele associated with absence of C and e antigens expression

• Published in: Transfusion medicine (Oxford, England) Vol. 34; no. 5; pp. 445 - 449
• Main Authors: Xuan, Ci, Xinxin, Fan, Piao, Lv, Wenbin, Kong, Yingyin, Liang, Chixiang, Liu, Huayou, Zhou
• Format: Journal Article
• Language: English
• Published: Oxford, UK Blackwell Publishing Ltd 01.10.2024
• Subjects: altered C/e; RHCE gene; RHCECe with c.829G > A; variant RHCE alleles; RHCECe with c.829G > A; altered C/e; variant RHCE alleles; RHCE gene
• ISSN: 0958-7578; 1365-3148; 1365-3148
• DOI: 10.1111/tme.13072

Background The Rh blood group antigens are encoded by the RHD and RHCE genes, which possess a remarkable degree of polymorphism owing to their high homologous structures. These variants of the RH genes can lead to absence or weak expression of antigens. Methods Analysis of RHCE genotyping by Polymerase Chain Reaction (PCR‐SSP) method specific to detect c.48G, c.48C, 109 bp insertion of IVS2, c.201A and c.307C and RhCE phenotyping, were conducted in 316 Chinese patients in previous study. One patient with discrepancy typing result was collected for further RhCE serologic typing using microcolumn gel method and tube method in saline using monoclonal antibodies. PacBio sequencing was performed for RHCE, RHD and RHAG complete sequence analysis. 3D molecular models of the protein with the wild‐type and mutant residue were generated using the DynaMut web server. The effect of the mutation on the protein function was predicted by PolyPhen‐2 software. Results One male patient of Chinese Han was detected with RHCE*C allele showed by PCR‐SSP method but ccEE phenotype. Further PacBio sequencing identified one normal RHCE*cE allele and one RHCE*Ce allele carried a novel c.829G > A (p.Gly277Arg) variant, which the encoded amino acid located in the ninth transmembrane segment of RhCE protein. Crystallisation analysis of 3D molecular models revealed that the substitution at Arg277 leads to the formation of additional hydrogen bonds, including weak hydrogen bonds between multiple atoms. It also results in hydrophobic ion interactions between Arg277 and Ala244. This mutation is predicted to have a damaging effect on protein function. Conclusion One novel RHCE*Ce allele with c.829G > A (p.Gly277Arg) variant was identified to resulting in the absence or weak expression of C and e antigens.