对 B3 血型 IVS3+5G>A ABO 基因突变混合场凝集的遗传和机制评估。

Genetic and mechanistic evaluation for the mixed-field agglutination in B3 blood type with IVS3+5G>A ABO gene mutation.

机构信息

Department of Laboratory Medicine, Chang-Gung Memorial Hospital, Taoyuan County, Taiwan.

出版信息

PLoS One. 2012;7(5):e37272. doi: 10.1371/journal.pone.0037272. Epub 2012 May 18.

DOI:10.1371/journal.pone.0037272

PMID:22624005

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3356269/

Abstract

BACKGROUND

The ABO blood type B(3) is the most common B subtype in the Chinese population with a frequency of 1/900. Although IVS3+5G>A (rs55852701) mutation of B gene has been shown to associate with the development of B(3) blood type, genetic and mechanistic evaluation for the unique mixed-field agglutination phenotype has not yet been completely addressed.

METHODOLOGY/PRINCIPAL FINDINGS: In this study, we analyzed 16 cases of confirmed B(3) individuals and found that IVS3+5G>A attributes to all cases of B(3). RT-PCR analyses revealed the presence of at least 7 types of aberrant B(3) splicing transcripts with most of the transcripts causing early termination and producing non-functional protein during translation. The splicing transcript without exon 3 that was predicted to generate functional B(3) glycosyltransferase lacking 19 amino acids at the N-terminal segment constituted only 0.9% of the splicing transcripts. Expression of the B(3) cDNA with exon 3 deletion in the K562 erythroleukemia cells revealed that the B(3) glycosyltransferase had only 40% of B(1) activity in converting H antigen to B antigen. Notably, the typical mixed-field agglutination of B(3)-RBCs can be mimicked by adding anti-B antibody to the K562-B(3) cells.

CONCLUSIONS/SIGNIFICANCE: This study thereby demonstrates that both aberrant splicing of B transcripts and the reduced B(3) glycosyltransferase activity contribute to weak B expression and the mixed-field agglutination of B(3), adding to the complexity for the regulatory mechanisms of ABO gene expression.

摘要

背景

ABO 血型 B(3)是中国人中最常见的 B 亚型，频率为 1/900。尽管 B 基因的 IVS3+5G>A(rs55852701)突变已被证明与 B(3)血型的发展有关，但对独特的混合场凝集表型的遗传和机制评估尚未完全解决。

方法/主要发现：在这项研究中，我们分析了 16 例确诊的 B(3)个体，发现 IVS3+5G>A 归因于所有的 B(3)病例。RT-PCR 分析显示，至少存在 7 种异常 B(3)剪接转录本，其中大多数转录本在翻译过程中导致早期终止并产生无功能蛋白。预测产生缺乏 N 端 19 个氨基酸的功能性 B(3)糖基转移酶的无外显子 3 的剪接转录本仅占剪接转录本的 0.9%。在 K562 红细胞白血病细胞中表达具有外显子 3 缺失的 B(3)cDNA 表明，B(3)糖基转移酶将 H 抗原转化为 B 抗原的活性仅为 B(1)的 40%。值得注意的是，通过向 K562-B(3)细胞中添加抗-B 抗体，可以模拟 B(3)-RBC 的典型混合场凝集。

结论/意义：本研究表明，B 转录本的异常剪接和 B(3)糖基转移酶活性的降低都导致了 B 表达的减弱和 B(3)的混合场凝集，增加了 ABO 基因表达调控机制的复杂性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/0bfe/3356269/e19220cda7fe/pone.0037272.g001.jpg

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对 B3 血型 IVS3+5G>A ABO 基因突变混合场凝集的遗传和机制评估。

Genetic and mechanistic evaluation for the mixed-field agglutination in B3 blood type with IVS3+5G>A ABO gene mutation.

机构信息

出版信息

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