Genetical study of mutation in maternal-fetal ABO incompatibility

Zhong-qing Yu; Feng-lan Hu; Qiong Cheng; Jian-hua Hao; Jian-hua Zhang; Xue-na Lin; Bao Zheng; Ping-ping Fa; Su-yan Yu; Li-hua Hu

doi:10.1007/s11596-015-1429-4

Current Medical Science ›› 2015, Vol. 35 ›› Issue (2) : 309 -315. DOI: 10.1007/s11596-015-1429-4

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Genetical study of mutation in maternal-fetal ABO incompatibility

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Abstract

This study looked into a family involving a rare mother-child ABO blood type inconsistency and explored its genetic and molecular basis. In the family, the mother had type AB blood and the father was blood type B and they gave birth to a baby of blood type O. Their blood types were phenotypically identified by using different techniques, including micro-column gel test, immune inhibition test, absorption and elution tests. The sequences of all 7 exons of ABO allele from the core family members were determined by using PCR and clone-based sequencing. The loci of mutated gene were compared against normal human genes. The result showed that the mother’s erythrocytes were agglutinable with monoclonal anti-A antibody (2+) and had agglutination reaction with anti-B antibody (4+). The mother’s serum registered agglutination action with standard blood type A cells. The findings showed an ABO inconsistency. When domestic antibodies were used, the mother’s erythrocytes yielded agglutination reaction with humanized anti-B serum (4+) and anti-B monoclonal antibody but were non-agglutinable with humanized anti-A serum and anti-A monoclonal antibody. Upon absorption and elution, the titer of anit-A antibody was 128 both before and after the absorption test, with no significant difference found between pre- and post-absorption values. Our results confirmed that the mother’s allelic gene was type B and contained type A. The father’s blood type was type B, and son’s blood type was type O. Clone-based sequencing revealed that the mother carried a heterozygous gene of B101.01 (ntA640→G)/O01, which contained an M214→V mutation that could express a weak expression of antigen A, resulting in blood type AB. However, their son did not have the M214→V mutation, which yielded a false ABO-inconsistency between him and his mother. We were led to conclude that type B gene with a M214→V mutation can encode both antigen B and weak antigen B that can lead to false ABO-inconsistencies.

Keywords

B(A) blood type / ABO incompatibility / heterozygous mutation / gene sequencing

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Zhong-qing Yu, Feng-lan Hu, Qiong Cheng, Jian-hua Hao, Jian-hua Zhang, Xue-na Lin, Bao Zheng, Ping-ping Fa, Su-yan Yu, Li-hua Hu. Genetical study of mutation in maternal-fetal ABO incompatibility. Current Medical Science, 2015, 35(2): 309-315 DOI:10.1007/s11596-015-1429-4

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References

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[1]

Gutiérrez-AguirreCH, Gómez-De-LeónA, Alatorre-RicardoJ, et al. . Allogeneic peripheral blood stem cell transplantation using reduced-intensity conditioning in an outpatient setting in ABO-incompatible patients: are survival and graft-versus-host disease different?. Transfusion, 2014, 54(5): 1269-1277 PMID: 24898453

[2]	YamamotoF, MeNeillPD, YamamotoM, et al. . Molecular genetic analysis of the ABO blood group system 2. Cis-AB alleles. Vox Sang, 1993, 64(2): 120-123 PMID: 8456556

[3]	Vengelen TylerV. Tchhnical Manual, 200214th edBethesda, American Association of Blood Banks, 282-285

[4]	GuoZH, XiongD, ZhuZY, et al. . A new B(A)641T->C allele detected in Chinese Han population. Chin J Blood Transfusion (Chinese), 2006, 19(1): 17-20

[5]	LiuCL, MiaoTH, LiuYQ. Genotyping study on B(A) blood type alleles. Chin J Blood Transfusion (Chinese), 2012, 25(5): 429-431

[6]	GuoZH, XiongD, ZhuZY, et al. . Study on the genotype of rare cisAB and B(A). Chin J Med Genetics (Chinese), 2004, 21(4): 321-324

[7]	BeckML, YatesAD, HardmanJ, et al. . Identification of a subset of group B donors reactive with monoclonal anti-A reagent. Am J Clin Pathol, 1989, 92(5): 625-629 PMID: 2510496

[8]	DengZH, YuQ, WuGG, et al. . Molecular genetic analysis for Ax phenotype of the ABO blood group system in Chinese. Vox Sang, 2005, 89(4): 251-256 PMID: 16262759

[9]	DengZH, YuQ, LiangYL, et al. . Characterization of a novel B(A) allele with BBBA type at the ABO blood group. J Hum Genet, 2006, 51(8): 732-736 PMID: 16871363

[10]	WuJ, XuXH, YeHY, et al. . Investigation on the genetic characteristics of B(A) patients and the methods of blood transfusion. Chin J Blood Transfusion (Chinese), 2010, 23(11): 951-952

[11]	TianL, FanWC, YaoZQ, et al. . The molecular genetics study of rare B(A). Chin J Blood Transfusion (Chinese), 2012, 25(1): 33-35

[12]	SeltsamA, HallenslebenM, KollmannA, et al. . Systematic analysis of the ABO gene diversity within exons 6 and 7 by PCR screening reveals new ABO alleles. Transfusion, 2003, 43(4): 428-439 PMID: 12662274