Evaluating the Antigen and Eplet Accuracy of DQA1 Imputations With the HaploSFHI Two-Field HLA Typing Inference Tool

IF 5.9 4区医学 Q2 CELL BIOLOGY

HLA Pub Date : 2025-04-23 DOI:10.1111/tan.70197

Romain Lhotte, Cathi Murphey, Sandra Tafulo, David Turner, Cédric Usureau, Magali Devriese, SFHI Consortium, Véronique Letort, Jean-Luc Taupin

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引用次数: 0

Abstract

Donor/recipient mismatched HLA antigens can lead to the production of Donor-Specific Antibodies by the recipient, which are deleterious to organ transplants. The HLA-DQ locus is the most frequent target, with both the DQ beta and alpha chains involved. For deceased donors in particular, while HLA-DQB1 has been typed in emergencies for a long time, HLA-DQA1 has only recently been included. No imputation algorithmic tool was available to impute HLA-DQA1 until the development of HaploSFHI, trained on 61,393 two-field typings by NGS methods. We evaluated the accuracy of two-field HLA-DQA1 imputation from serological and two-field level HLA-A, B, DRB1, and DQB1 typings. We report a highly accurate two-field HLA-DQA1 prediction using a French test cohort of 7696 individuals, respectively reaching 92.30% and 96.45% accuracy. The average ‘False Positive eplet load’ stood at 0.19 and 0.07, respectively, and the average ‘False Negative eplet load’ at 0.18 and 0.08, respectively. A similar performance was obtained on three independent test cohorts of European ancestry (from the USA, the UK, and Portugal). Interestingly, performance was only slightly inferior on five independent test cohorts of other ethnicities (from Hong Kong and the USA) whereas it was significantly lower for two-field DRB1 imputation from its serological level. These results suggest that DQA1 can reliably be imputed even when information is totally missing, with low error risk at both antigen and eplet levels, even if the reference population is not matched. Similar additional initiatives would be welcome to confirm these findings.

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用HaploSFHI双场HLA分型推断工具评估DQA1抗原和等位基因的准确性

供体/受体HLA抗原不匹配可导致受体产生供体特异性抗体，这对器官移植是有害的。HLA-DQ位点是最常见的靶点，DQ β链和α链都参与其中。特别是对于已故的献血者，虽然HLA-DQB1在紧急情况下被分型已经很长时间了，但HLA-DQA1直到最近才被包括在内。在HaploSFHI开发之前，没有可用的输入算法工具来输入HLA-DQA1， HaploSFHI通过NGS方法训练了61,393个双区分型。我们评估了血清学和双区水平HLA-A、B、DRB1和DQB1分型的双区HLA-DQA1输入的准确性。我们报告了一个高度准确的双场HLA-DQA1预测，使用7696个法国测试队列，分别达到92.30%和96.45%的准确率。平均“假阳性eplet负荷”分别为0.19和0.07，平均“假阴性eplet负荷”分别为0.18和0.08。在欧洲血统的三个独立测试队列（来自美国、英国和葡萄牙）中获得了类似的表现。有趣的是，在其他种族（来自香港和美国）的五个独立测试队列中，表现仅略差，而从血清学水平进行双场DRB1代入的表现则明显较低。这些结果表明，即使在信息完全缺失的情况下，DQA1也可以可靠地估算，即使参考群体不匹配，抗原和等位基因水平的错误风险都很低。欢迎采取类似的额外行动来证实这些调查结果。

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来源期刊

HLA Immunology and Microbiology-Immunology

CiteScore

3.00

自引率

28.80%

发文量

368

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.