Anne Cathrine Staff, Heidi E. Fjeldstad, Maria B. Olsen, Jonas Øgaard, Marte K. Viken, Cynthia S. M. Kramer, Michael Eikmans, Thomas Kroneis, Katja Sallinger, Sami B. Kanaan, Meryam Sugulle, Daniel P. Jacobsen
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Antibody-verified eplet mismatch and Predicted Indirectly Recognisable HLA Epitopes (PIRCHE) scores were calculated to quantify foetal-maternal histocompatibility from the mother's perspective. Circulating foetal cells were detected in 50.0% (38/76) of women during pregnancy, and 25.4% (15/59) postpartum. During pregnancy, HLA class II antibody-verified eplet mismatch load and PIRCHE scores correlated negatively with the presence and quantity of foetal cells in the maternal circulation. Postpartum, HLA class I allele mismatches correlated negatively with foetal microchimerism presence, while HLA class II allele mismatches, HLA class I and II antibody-verified eplet mismatch load, and PIRCHE-I and PIRCHE-II scores correlated negatively with both microchimerism presence and quantity. The correlation between mismatch parameters aimed at evaluating the risk of humoral and T cell-mediated allorecognition and foetal microchimerism was more evident postpartum than during pregnancy. 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引用次数: 0
摘要
产后数十年的妇女体内可检测到胎儿细胞,这种状态被称为胎儿微嵌合体。这些半异体胎儿细胞与母体之间的相互作用可能会受到 HLA 位点遗传错配的影响。在这里,我们将 HLA 等位基因和分子错配值与孕期和产后母体循环中胎儿小嵌合体的存在和数量联系起来。共纳入了 76 名孕妇,其中 59 人在产后 1-8 年接受了随访。对母体和胎儿的 DNA 进行了 HLA I 类和 II 类位点的基因分型。通过 qPCR 检测母体水包衣中的胎儿细胞,以遗传的父系等位基因为目标。通过计算抗体验证的外显子错配和预测间接可识别 HLA 表位(PIRCHE)得分,从母亲的角度量化胎儿与母亲的组织相容性。50.0%(38/76)的孕妇在孕期检测到循环胎儿细胞,25.4%(15/59)的孕妇在产后检测到循环胎儿细胞。孕期,HLA 二类抗体验证的外显子错配负荷和 PIRCHE 评分与母体循环中胎儿细胞的存在和数量呈负相关。产后,HLA I类等位基因错配与胎儿微嵌合体的存在呈负相关,而HLA II类等位基因错配、HLA I类和II类抗体验证的外显子错配负荷、PIRCHE-I和PIRCHE-II评分与微嵌合体的存在和数量呈负相关。旨在评估体液和 T 细胞介导的异体识别风险的错配参数与胎儿小嵌合体之间的相关性在产后比孕期更明显。观察到的胎儿-母体组织相容性对胎儿小嵌合体的预测作用表明,循环中的胎儿细胞会被母体免疫系统清除。我们认为,胎儿细胞在母体血液循环和组织中的异源识别能力会影响胎儿微嵌合体对母体健康的长期影响。
Foetal Microchimerism Correlates With Foetal-Maternal Histocompatibility Both During Pregnancy and Postpartum
Foetal cells are detectable in women decades postpartum, a state termed foetal microchimerism. The interplay between these semi-allogeneic foetal cells and the mother could be affected by genetic mismatches in the HLA loci. Here, we relate HLA allele and molecular mismatch values to the presence and quantity of foetal microchimerism in the maternal circulation during pregnancy and postpartum. A total of 76 pregnant women were included, of which 59 were followed up 1–8 years postpartum. Maternal and foetal DNA was genotyped for HLA class I and II loci. Foetal cells in maternal buffy coat were detected by qPCR, targeting inherited paternal alleles. Antibody-verified eplet mismatch and Predicted Indirectly Recognisable HLA Epitopes (PIRCHE) scores were calculated to quantify foetal-maternal histocompatibility from the mother's perspective. Circulating foetal cells were detected in 50.0% (38/76) of women during pregnancy, and 25.4% (15/59) postpartum. During pregnancy, HLA class II antibody-verified eplet mismatch load and PIRCHE scores correlated negatively with the presence and quantity of foetal cells in the maternal circulation. Postpartum, HLA class I allele mismatches correlated negatively with foetal microchimerism presence, while HLA class II allele mismatches, HLA class I and II antibody-verified eplet mismatch load, and PIRCHE-I and PIRCHE-II scores correlated negatively with both microchimerism presence and quantity. The correlation between mismatch parameters aimed at evaluating the risk of humoral and T cell-mediated allorecognition and foetal microchimerism was more evident postpartum than during pregnancy. The observed predictive effect of foetal-maternal histocompatibility on foetal microchimerism suggests that circulating foetal cells are subject to clearance by the maternal immune system. We propose that allorecognition of foetal cells in the maternal circulation and tissues influences any long-term effect that foetal microchimerism may have on maternal health.
期刊介绍:
HLA, the journal, publishes articles on various aspects of immunogenetics. These include the immunogenetics of cell surface antigens, the ontogeny and phylogeny of the immune system, the immunogenetics of cell interactions, the functional aspects of cell surface molecules and their natural ligands, and the role of tissue antigens in immune reactions. Additionally, the journal covers experimental and clinical transplantation, the relationships between normal tissue antigens and tumor-associated antigens, the genetic control of immune response and disease susceptibility, and the biochemistry and molecular biology of alloantigens and leukocyte differentiation. Manuscripts on molecules expressed on lymphoid cells, myeloid cells, platelets, and non-lineage-restricted antigens are welcomed. Lastly, the journal focuses on the immunogenetics of histocompatibility antigens in both humans and experimental animals, including their tissue distribution, regulation, and expression in normal and malignant cells, as well as the use of antigens as markers for disease.
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