48例D变异型基因背景研究*

doi:10.3969/j.issn.1671-2587.2022.01.019

临床输血与检验 ›› 2022, Vol. 24 ›› Issue (1): 84-88.DOI: 10.3969/j.issn.1671-2587.2022.01.019

48例D变异型基因背景研究*

丁梦圆, 周秀, 汤龙海, 张辉, 李艳, 王明元

215006 苏州市中心血站（丁梦圆,汤龙海,张辉,王明元）; 中国人民武装警察部队特色医学中心（周秀）; 徐州市中心血站（李艳）

收稿日期:2021-08-17 发布日期:2022-01-27
通讯作者: 王明元,男,主任技师,博士,主要从事输血医学方面研究,（E-mail）mingyuan98@aliyun.com。
共同通信作者：李艳,女,主管技师,硕士,主要从事红细胞血型方面研究,（E-mail）fangayana@126.com。
作者简介:丁梦圆（1993-）,女,江苏宜兴人,主管技师,硕士,主要从事免疫血液学方面研究,（E-mail）18168573629@163.com。
并列第一作者：周秀,（1977-）,女,湖南长沙人,主管技师,学士,主要从事战地用血方面研究,（E-mail）18622386659@163.com。
基金资助:
*本课题苏州市“科教兴卫”青年科技项目（No.KJXW2020057）,苏州大学血液和血管疾病诊疗药物技术教育部工程研究中心转化研究开放课题（No.GCZ202004）,江苏省输血协会英科新创科研基金（No.JS2020022）资助

Molecular Genetic Analysis of 48 Cases with D Variant Phenotypes

DING Meng-yuan, ZHOU Xiu, TANG Long-hai, et al

Suzhou Blood Center 215006

Received:2021-08-17 Published:2022-01-27

摘要/Abstract

摘要： 目的明确48例D变异型标本的RHD遗传背景。方法收集2020年7月~2021年7月送检苏州市中心血站和徐州市中心血站进行RHD血型确认的献血者和患者标本,D抗原盐水法阴性或弱阳性、间接抗人球蛋白试验至少有一种抗-D结果为阳性者鉴定为D变异型,提取D变异型标本的基因组DNA,采用PCR-SSP方法对标本RHD基因型进行初步鉴定,对于有疑问或无法鉴定的结果,进一步对RHD外显子1-10进行基因测序。结果 48例D变异型标本中,PCR-SSP方法直接确定RHD等位基因组成的有35例,包括RHD*15、RHD*06.03.01、RHD*15/RHD*01EL.01、RHD*01EL.01,其中RHD*15和RHD*06.03.01例数最多,分别有17例（34.69%）和9例（18.37%）。其余13例经RHD测序后确定等位基因组成,其中5例为弱D（RHD*01W.72、RHD*01W.54、RHD*01W.10和RHD*11/RHD*01EL.01）,4例为部分D（RHD*05.01、RHD*05.04、RHD*05.05和RHD*16.02）,1例为RHD*01。另有3例单核苷酸突变的弱D标本,分别为RHD*779G 2例和509T>G（GenBank：MZ423199） 1例。509T>G突变经多种单抗检测与部分D表型接近。RHD*15的常见分型为ccEe,占该等位基因组成的70.59%;RHD*06.03.01的常见分型为Ccee,占该等位基因组成的77.78%。结论 RHD*15为本地区最常见的D变异型,其常见分型为ccEe。D变异型在本地区具有丰富的遗传多样性。

关键词: D变异型, RHD基因, RHD阴性

Abstract: Objective To investigate the RHD genetic background of 48 D variant specimens. Methods Specimens were collected from blood donors and patients sent to Suzhou Blood Center and Xuzhou Blood Center for RHD blood group confirmation from July 2020 to July 2021. All samples showing negative or equivocal agglutination were tested by IAT with three commercially available anti-D reagents,with D variant defined once it reacted positively with an anti-D. The genomic DNA of the D variant specimen was extracted,and the RHD genotype of the specimen was preliminarily identified by PCR-SSP. For doubtful or unidentifiable results,further genetic sequencing of RHD exons 1-10 was performed. Results A total of 48 cases were identified with the D variant.The PCR-SSP method directly determined the allelic composition in 35 cases, including RHD*15,RHD*06.03.01,RHD*15/RHD*01EL.01 and RHD*01EL.01,of which weak D type and DⅥ type are the most prevalent,with 17 cases（34.69%）and 9 cases（18.37%）respectively. The allelic composition of the remaining 13 cases was determined after RHD sequencing,including 5 cases of weak D（RHD*01W.72,RHD*01W.54, RHD*01W.10 and RHD*11/RHD*01EL.01）,4 cases of partial D（RHD*05.01,RHD*05.04,RHD*05.05 and RHD*16.02）,as well as 1 case of RHD*01. There were also 3 weak D specimens with single nucleotide mutations,2 cases with RHD*779G and 1 case with 509T>G. The 509T>G mutation was found to be like partial D after being tested with multiple monoclonal antibodies. The common type of RHD*15 was ccEe,accounting for 70.59% of the allelic composition; the common type of RHD*06.03.01 was Ccee,accounting for 77.78% of the allelic composition. Conclusion RHD*15 is the most common D variant in the two areas,whose common type is ccEe,and the D variant has rich genetic polymorphisms for this locus.

Key words: D variant, RHD gene, RHD negative

中图分类号:

R394

丁梦圆, 周秀, 汤龙海, 张辉, 李艳, 王明元. 48例D变异型基因背景研究*[J]. 临床输血与检验, 2022, 24(1): 84-88.

DING Meng-yuan, ZHOU Xiu, TANG Long-hai, et al. Molecular Genetic Analysis of 48 Cases with D Variant Phenotypes[J]. JOURNAL OF CLINICAL TRANSFUSION AND LABORATORY MEDICINE, 2022, 24(1): 84-88.

参考文献

[1] 乔芳,田亚娟,王远花,等.石家庄地区RHD变异型的分子背景研究[J]. 临床输血与检验,2020,22(4):400-405.
[2] 丁梦圆,严洁婷,王明元.四种抗-D试剂用于吸收放散法检测Del表型的对比研究[J].中国输血杂志,2020,33(11):1202-1204.
[3] 朱自严. RHD抗原的鉴定我们该做的多深入[J].临床输血与检验,2016,18(4):305-307.
[4] BOGGIONE C T,NOGUÉS N,GONZÁLEZ-SANTESTEBAN C,et al.Characterization of RHD locus polymorphism in D negative and D variant donors from Northwestern Argentina[J]. Transfusion,2019,59(10):3236-3242.
[5] 温机智,贾双双,廖志坚,等.32名RHD变异型献血者分子遗传背景研究[J]. 中国输血杂志,2019,32(2):154-157.
[6] ZHANG X,LI G J,ZHOU Z R,et al.Molecular and computational analysis of 45 samples with a serologic weak D phenotype detected among 132,479 blood donors in northeast China[J].J Transl Med,2019,17(1):393.
[7] WANG M,WANG B L,XU W,et al.Anti-D alloimmunisation in pregnant women with DEL phenotype in China[J]. Transfus Med,2015,25(3):163-169.
[8] HE J,YING Y L,HONG X Z,et al.Molecular basis and zygosity determination of D variants including identification of four novel alleles in Chinese individuals[J]. Transfusion,2015,55(1):137-143.
[9] 梁延连,张印则.RHD mRNA剪接体与RHD抗原表达的相关性及其在输血及妊娠中的免疫应答研究[J].中国输血杂志,2019,32(1):1-4.
[10] 易品,黎诚耀,邵超鹏.RHCE基因和RhCcEe抗原研究进展[J]. 中国输血杂志,2014,27(12):1283-1287.
[11] YE L Y,WANG P,GAO H H,et al.Partial D phenotypes and genotypes in the Chinese population[J]. Transfusion,2012,52(2):241-246.
[12] SANDLER S G,FLEGEL W A.Does transfusion of Asian-type DEL red blood cells to D-recipients cause D alloimmunization?[J]. Transfusion,2019,59(7):2455-2458.
[13] ARNONI C P,MUNIZ J G,DE PAULA VENDRAME T A,et al. Correlation among automated scores of agglutination,antigen density by flow cytometry and genetics of D variants[J].Transfus Apher Sci,2019,58(5):680-684.
[14] MCGANN P T,DESPOTOVIC J M,HOWARD T A,et al.A novel laboratory technique demonstrating the influences of RHD zygosity and the RhCcEe phenotype on erythrocyte D antigen expression[J]. Am J Hematol,2012,87(3):266-271.
[15] 贺云蕾,俞露,许德义,等.罕见Rh血型弱D变异体的分子机制研究[J].中华医学遗传学杂志,2021,38(5):492-495.
[16] FLEGEL W A,VON ZABERN I,DOESCHER A,et al.D variants at the RHD vestibule in the weak D type 4 and Eurasian D clusters[J].Transfusion,2009,49(6):1059-1069.

48例D变异型基因背景研究*

Molecular Genetic Analysis of 48 Cases with D Variant Phenotypes

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