Randen Ingrid, Sørensen Kirsten, Killie Mette K, Kjeldsen-Kragh Jens
Departments of Immunology and Transfusion Medicine, Ullevål University Hospital, Kirkeveien 166, 0407 Oslo, Norway.
Transfusion. 2003 Apr;43(4):445-50. doi: 10.1046/j.1537-2995.2003.00354.x.
The probability for occurrence of neonatal alloimmune thrombocytopenic purpura (NAITP) depends largely on the frequency of each individual phenotype in various populations. In caucasians, antibodies to human platelet antigen (HPA)-1a are the major cause of neonatal alloimmune thrombocytopenic purpura, whereas in the Japanese population, antibodies to HPA-4b is most frequently involved in NAITP. Conventional PCR techniques for platelet antigen genotyping rely on sequence-specific primers (SSPs) and detection by gel electrophoresis, a method which is laborious and time consuming. New PCR technology, measuring the match of a hybridization probe with its target and thereby allowing simultaneous detection of both alleles, provides an efficient tool for genotyping of the HPA systems.
A total of 105 healthy blood donors were genotyped for HPA-1, -2, -3, -4, and -5 a/b and Gov a/b with new primers and probes designed for mutation detection by melting curve analysis (using LightCycler technology). Donor DNA was independently genotyped by an allele-specific assay, using SSPs, in a reference laboratory.
There was full concordance between the two genotyping methods, and genotype frequencies were comparable with previous studies in caucasians.
We present rapid and reliable detection systems for HPA-1, -2, -3, -4, and -5 a/b and Gov a/b based on mutation detection of both alleles simultaneously by melting curve analysis. As the Gov system has been reported to have similar frequency of involvement in alloimmune thrombocytopenia as HPA-5, the opportunity for genotyping should aid the diagnosis of such patients.
新生儿同种免疫性血小板减少性紫癜(NAITP)的发生概率在很大程度上取决于不同人群中各基因型的频率。在白种人中,针对人类血小板抗原(HPA)-1a的抗体是新生儿同种免疫性血小板减少性紫癜的主要病因,而在日本人群中,针对HPA-4b的抗体最常与NAITP相关。传统的血小板抗原基因分型PCR技术依赖序列特异性引物(SSP)并通过凝胶电泳进行检测,这种方法既费力又耗时。新的PCR技术通过测量杂交探针与其靶标的匹配情况,从而能够同时检测两个等位基因,为HPA系统的基因分型提供了一种有效的工具。
使用为通过熔解曲线分析(采用LightCycler技术)进行突变检测而设计的新引物和探针,对105名健康献血者进行HPA-1、-2、-3、-4和-5 a/b以及Gov a/b的基因分型。在一个参考实验室中,使用SSP通过等位基因特异性分析对献血者DNA进行独立基因分型。
两种基因分型方法完全一致,基因型频率与先前对白种人的研究结果相当。
我们基于通过熔解曲线分析同时检测两个等位基因的突变,提出了一种针对HPA-1、-2、-3、-4和-5 a/b以及Gov a/b的快速且可靠的检测系统。由于据报道Gov系统在同种免疫性血小板减少症中的受累频率与HPA-5相似,基因分型的方法有助于此类患者的诊断。
