HLA antibody affinity determination: From HLA‐specific monoclonal antibodies to donor HLA specific antibodies (DSA) in patient serum

人类白细胞抗原 抗体 单克隆抗体 贪婪 抗原 免疫学 表面等离子共振 化学 生物 材料科学 纳米技术 纳米颗粒
作者
Melanie N. Hug,Sabrina Keller,Talea Marty,Daniel Gygax,Dominik M. Meinel,Peter Spies,Joëlle Handschin,Marc Kleiser,Noemi Vazquez,Janina Linnik,Rico Buchli,Frans H.J. Claas,Sebastiaan Heidt,Cynthia S. M. Kramer,Suzanne Bezstarosti,Jar‐How Lee,Stefan Schaub,Gideon Hönger
出处
期刊:HLA: Immune Response Genetics [Wiley]
卷期号:102 (3): 278-300 被引量:5
标识
DOI:10.1111/tan.15047
摘要

Organs transplanted across donor‐specific HLA antibodies (DSA) are associated with a variety of clinical outcomes, including a high risk of acute kidney graft rejection. Unfortunately, the currently available assays to determine DSA characteristics are insufficient to clearly discriminate between potentially harmless and harmful DSA. To further explore the hazard potential of DSA, their concentration and binding strength to their natural target, using soluble HLA, may be informative. There are currently a number of biophysical technologies available that allow the assessment of antibody binding strength. However, these methods require prior knowledge of antibody concentrations. Our objective within this study was to develop a novel approach that combines the determination of DSA‐affinity as well as DSA‐concentration for patient sample evaluation within one assay. We initially tested the reproducibility of previously reported affinities of human HLA‐specific monoclonal antibodies and assessed the technology‐specific precision of the obtained results on multiple platforms, including surface plasmon resonance (SPR), bio‐layer interferometry (BLI), Luminex (single antigen beads; SAB), and flow‐induced dispersion analysis (FIDA). While the first three (solid‐phase) technologies revealed comparable high binding‐strengths, suggesting measurement of avidity, the latter (in‐solution) approach revealed slightly lower binding‐strengths, presumably indicating measurement of affinity. We believe that our newly developed in‐solution FIDA‐assay is particularly suitable to provide useful clinical information by not just measuring DSA‐affinities in patient serum samples but simultaneously delivering a particular DSA‐concentration. Here, we investigated DSA from 20 pre‐transplant patients, all of whom showed negative CDC‐crossmatch results with donor cells and SAB signals ranging between 571 and 14899 mean fluorescence intensity (MFI). DSA‐concentrations were found in the range between 11.2 and 1223 nM (median 81.1 nM), and their measured affinities fall between 0.055 and 24.7 nM (median 5.34 nM; 449‐fold difference). In 13 of 20 sera (65%), DSA accounted for more than 0.1% of total serum antibodies, and 4/20 sera (20%) revealed a proportion of DSA even higher than 1%. To conclude, this study strengthens the presumption that pre‐transplant patient DSA consists of various concentrations and different net affinities. Validation of these results in a larger patient cohort with clinical outcomes will be essential in a further step to assess the clinical relevance of DSA‐concentration and DSA‐affinity.

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