Gong Jianli, Xu Xianguo, Zhu Jianrong
Comprehensive Office, Yiwu Central Blood Station, Yiwu, Zhejiang, 322000, China.
ZheJiang Blood Center, Institute of Transfusion Medicine, Hangzhou, Zhejiang, 310052, China.
Open Med (Wars). 2025 Jul 17;20(1):20251234. doi: 10.1515/med-2025-1234. eCollection 2025.
To establish a multi-level blood type identification system, comprehensively analyze the distribution characteristics and genetic polymorphisms of multi-system rare blood types in foreign blood donors, explore the application value of DNA sequencing technology in rare blood type screening, and evaluate its clinical significance in complex transfusion patients.
Blood samples from 277 foreign blood donors who participated in voluntary blood donation in Yiwu City were prospectively collected from June 2021 to March 2023. Serological typing of 24 antigens from 11 red blood cell blood group systems (ABO, Rh, Duffy, MNS, Kidd, Kell, Lutheran, P1PK, Lewis, H, and Diego) was performed using microcolumn agglutination and tube methods. First-generation sequencing technology was used to perform whole-exome sequencing of Duffy, Kell, Ss/GYPB, and Diego genes on screened rare phenotype samples to analyze genetic polymorphism characteristics. Key mutation sites were verified using multiplex PCR-sequencing. A rare blood type DNA database was established and compared with the international blood group gene database (BGMUT). Confirmed rare blood type units were preserved through programmed freezing, and their clinical application effects were tracked and analyzed.
The 277 foreign blood donors were primarily from the Middle East and South Asia (71.8%), with major source countries including Syria (56 cases, 20.22%), Yemen (49 cases, 17.69%), Pakistan (24 cases, 8.66%), Iraq (20 cases, 7.22%), India (15 cases, 5.42%), Iran (14 cases, 5.05%), Mali (11 cases, 3.97%), and Jordan (10 cases, 3.61%). In blood type distribution, Fya antigen expression was highest among Indian (100%) and Pakistani (87.50%) donors; 63 cases of Fy(a-b-) were found, most commonly in donors from Mali and Yemen. S antigen expression was highest in donors from Syria (60.71%), India (60.00%), and Pakistan (58.33%); 47 cases of S+s- were detected. Additionally, 12 cases of Lua+ were found, distributed among Syria (3 cases), Iraq (2 cases), Yemen (2 cases), Jordan (2 cases), etc.; 5 cases of Kpa+ were from Yemen (2 cases), Pakistan, Iraq, and Jordan (1 case each). DNA sequencing revealed that GATA-1 promoter region mutation (c.-67T>C) in the Duffy gene was the primary molecular basis for the Fy(a-b-) phenotype, accounting for 96.8% (61/63). Multivariate analysis demonstrated significant clustering of blood group phenotypes by geographical regions ( < 0.001), with the first two principal components explaining 78.3% of the variance in distribution patterns. Genotype-phenotype correlation analysis showed a concordance rate of 99.2% (248/250). During the study period, 41 rare phenotype blood units (74U) were screened and cryopreserved, including 14 units (24.5U) of Fy(a-b-), 25 units (45.5U) of Fy(a-b+), and 2 units (4.0U) of s(-). In clinical application, these units were successfully used in three difficult-to-match transfusion patients: a patient with multiple antibodies (anti-Fya, anti-Jka, and anti-C), a sickle cell disease patient requiring S-negative blood, and a pregnant woman with anti-Kpa antibodies. All cases showed satisfactory post-transfusion outcomes with no adverse reactions (24 h red cell recovery rates >90%).
Foreign blood donors exhibit significant regional and ethnic polymorphic characteristics in red cell blood types. A multi-level blood type identification system based on DNA sequencing can improve the accuracy and efficiency of rare blood type screening. Establishing a standardized genetic typing strategy for rare blood types in foreign donors has important clinical translation value for constructing diverse rare blood type resources and addressing complex transfusion needs.
建立多层次血型鉴定系统,全面分析国外献血者多系统稀有血型的分布特征及遗传多态性,探索DNA测序技术在稀有血型筛查中的应用价值,并评估其在复杂输血患者中的临床意义。
前瞻性收集2021年6月至2023年3月在义乌市参加无偿献血的277名国外献血者的血液样本。采用微柱凝集法和试管法对11个红细胞血型系统(ABO、Rh、达菲、MNS、基德、凯尔、路德、P1PK、刘易斯、H和迭戈)的24种抗原进行血清学分型。对筛选出的稀有表型样本,使用一代测序技术对达菲、凯尔、Ss/GYPB和迭戈基因进行全外显子测序,分析遗传多态性特征。采用多重PCR测序验证关键突变位点。建立稀有血型DNA数据库,并与国际血型基因数据库(BGMUT)进行比对。对确认的稀有血型单位进行程序冷冻保存,并跟踪分析其临床应用效果。
277名国外献血者主要来自中东和南亚(71.8%),主要来源国包括叙利亚(56例,20.22%)、也门(49例,17.69%)、巴基斯坦(24例,8.66%)、伊拉克(20例,7.22%)、印度(15例,5.42%)、伊朗(14例,5.05%)、马里(11例,3.97%)和约旦(10例,3.61%)。在血型分布方面,Fya抗原在印度(100%)和巴基斯坦(87.50%)献血者中表达最高;发现63例Fy(a-b-),最常见于马里和也门的献血者。S抗原在叙利亚(60.71%)、印度(60.00%)和巴基斯坦(58.33%)的献血者中表达最高;检测到47例S+s-。此外,发现12例Lua+,分布在叙利亚(3例)、伊拉克(2例)、也门(2例)、约旦(2例)等;5例Kpa+来自也门(2例)、巴基斯坦、伊拉克和约旦(各1例)。DNA测序显示,达菲基因中GATA-1启动子区域突变(c.-67T>C)是Fy(a-b-)表型的主要分子基础,占96.8%(61/63)。多变量分析表明血型表型按地理区域显著聚类(<0.001),前两个主成分解释了分布模式中78.3%的变异。基因型-表型相关性分析显示一致率为99.2%(248/250)。在研究期间,筛选并冷冻保存了41个稀有表型血液单位(74U),包括14个单位(24.5U)的Fy(a-b-)、25个单位(45.5U)的Fy(a-b+)和2个单位(4.0U)的s(-)。在临床应用中,这些单位成功用于3例难以配型的输血患者:1例有多种抗体(抗Fya、抗Jka和抗C)的患者、1例需要S阴性血的镰状细胞病患者和1例有抗Kpa抗体的孕妇。所有病例输血后结果均令人满意,无不良反应(24小时红细胞回收率>90%)。
国外献血者在红细胞血型方面表现出显著的区域和种族多态性特征。基于DNA测序的多层次血型鉴定系统可提高稀有血型筛查的准确性和效率。为国外献血者的稀有血型建立标准化基因分型策略,对于构建多样化稀有血型资源和满足复杂输血需求具有重要的临床转化价值。
