Department of Hematological and Transfusion Immunology, Institute of Hematology and Transfusion Medicine, Warsaw, Poland.
Department of Genetics, Maria Sklodowska-Curie Memorial Cancer Center and Institute of Oncology, Warsaw, Poland.
Transfusion. 2019 Mar;59(3):1102-1107. doi: 10.1111/trf.15116. Epub 2019 Jan 8.
Fetuses whose mothers have produced antibodies to red blood cell (RBC) or platelet antigens are at risk of being affected by hemolytic disease or alloimmune thrombocytopenia, respectively, only if they inherit the incompatible antigen. Noninvasive diagnosis of the fetal antigen is employed for management of immunized pregnancies, but the specific detection of SNPs, encoding the majority of antigens, in maternal plasma is still a challenge. We applied targeted next-generation sequencing (NGS) to predict the fetal antigen based on the detection of fetomaternal chimerism.
The DNA of 13 pregnant women (with anti-K [3] anti-k [1], anti-Fy [1], anti-D + C + Jk [1], anti-D + E + K [1], anti-HPA-1a [1], anti-HPA-3b [1], anti-HPA-5b [1], and nonimmunized [3]) was sequenced using primers for regions encoding RhD, RhC, Rhc, RhE/e, K/k, Fya/b, Jka/b, MN, Ss, and HPA-1, 2, 3, 5, 15, 4 X-polymorphisms on the Ion Torrent Personal Genome Machine (PGM) System (Thermo Fisher Scientific, Inc., Waltham, MA, USA).
NGS results were in agreement with the phenotype/genotype of women and their neonates (except for the unsuccessful detection of MN and RhC). NGS determined fetal allele chimerism for K, k, Fya, Fyb, Jka, Jkb, S, RhE (from 0.42% to 6.08%); RhD, Rhc (100%); HPA-1a, -2b, -3a, 3b, -5b, -15a, 15b (from 0.23% to 4.11%). NGS revealed fetal chimerism for incompatible antigens (from 0.7% to 4.8%) in 7 immunized cases, excluded in 3 (with anti-K, anti-Fy , anti-HPA-3b).
The designed NGS predicts the fetal RBC and platelet antigen status universally in cases with various clinically significant antibodies as well as providing confirmation of the presence of fetal DNA. However, some improvement of the unsuccessful primers is required.
如果母亲产生针对红细胞(RBC)或血小板抗原的抗体,胎儿分别有发生溶血性疾病或同种免疫性血小板减少症的风险,只有当他们遗传了不相容的抗原。非侵入性的胎儿抗原诊断用于免疫妊娠的管理,但母体血浆中大多数抗原的 SNP 的特异性检测仍然是一个挑战。我们应用靶向下一代测序(NGS)来预测基于胎儿母嵌合体检测的胎儿抗原。
对 13 名孕妇(携带抗-K[3]抗-k[1]、抗-Fy[1]、抗-D+C+Jk[1]、抗-D+E+K[1]、抗-HPA-1a[1]、抗-HPA-3b[1]、抗-HPA-5b[1]和非免疫[3])的 DNA 进行测序,使用引物对编码 RhD、RhC、Rhc、RhE/e、K/k、Fya/b、Jka/b、MN、Ss 和 HPA-1、2、3、5、15、4X-多态性在 Ion Torrent Personal Genome Machine(PGM)系统(Thermo Fisher Scientific, Inc.,Waltham,MA,USA)上。
NGS 结果与女性及其新生儿的表型/基因型一致(除了 MN 和 RhC 的检测不成功)。NGS 确定了 K、k、Fya、Fyb、Jka、Jkb、S、RhE 的胎儿等位基因嵌合体(从 0.42%到 6.08%);RhD、Rhc(100%);HPA-1a、-2b、-3a、3b、-5b、-15a、15b(从 0.23%到 4.11%)。在 7 例免疫的病例中,NGS 显示了不相容抗原的胎儿嵌合体(从 0.7%到 4.8%),在 3 例中排除了(携带抗-K、抗-Fy、抗-HPA-3b)。
所设计的 NGS 普遍预测了具有各种临床意义抗体的病例中胎儿 RBC 和血小板抗原的状态,同时还确认了胎儿 DNA 的存在。然而,需要改进一些不成功的引物。
