Hidden Patterns of Anti-HLA Class I Alloreactivity Revealed Through Machine Learning

Angeliki G. Vittoraki; Asimina Fylaktou; Katerina Tarassi; Zafeiris Tsinaris; Alexandra Siorenta; George Ch. Petasis; Demetris Gerogiannis; Claudia Lehmann; Maryvonnick Carmagnat; Ilias Doxiadis; Aliki G. Iniotaki; Ioannis Theodorou; Ioannis Theodorou

doi:10.3389/fimmu.2021.670956

Frontiers in Immunology (Jul 2021)

Hidden Patterns of Anti-HLA Class I Alloreactivity Revealed Through Machine Learning

Angeliki G. Vittoraki,
Asimina Fylaktou,
Katerina Tarassi,
Zafeiris Tsinaris,
Alexandra Siorenta,
George Ch. Petasis,
Demetris Gerogiannis,
Claudia Lehmann,
Maryvonnick Carmagnat,
Ilias Doxiadis,
Aliki G. Iniotaki,
Ioannis Theodorou,
Ioannis Theodorou

Affiliations

Angeliki G. Vittoraki: Immunology Department & National Tissue Typing Center, General Hospital of Athens “G. Gennimatas”, Athens, Greece
Asimina Fylaktou: National Peripheral Histocompatibility Center, Immunology Department, Hippokration General Hospital, Thessaloniki, Greece
Katerina Tarassi: Immunology-Histocompatibility Department, “Evangelismos” General Hospital, Athens, Greece
Zafeiris Tsinaris: National Peripheral Histocompatibility Center, Immunology Department, Hippokration General Hospital, Thessaloniki, Greece
Alexandra Siorenta: Immunology Department & National Tissue Typing Center, General Hospital of Athens “G. Gennimatas”, Athens, Greece
George Ch. Petasis: National Peripheral Histocompatibility Center, Immunology Department, Hippokration General Hospital, Thessaloniki, Greece
Demetris Gerogiannis: Department of Computer Science & Engineering , University of Ioannina, Ioannina, Greece
Claudia Lehmann: Laboratory for Transplantation Immunology, Institute for Transfusion Medicine, University Hospital Leipzig, Leipzig, Germany
Maryvonnick Carmagnat: Laboratoire d’Immunologie, Hôpital St. Louis, Paris, France
Ilias Doxiadis: Laboratory for Transplantation Immunology, Institute for Transfusion Medicine, University Hospital Leipzig, Leipzig, Germany
Aliki G. Iniotaki: Nephrology and Transplantation Unit, Medical School of Athens, Laikon Hospital, Athens, Greece
Ioannis Theodorou: Laboratoire d’Immunologie, Hôpital St. Louis, Paris, France
Ioannis Theodorou: Centre d’Immunologie et des Maladies Infectieuses UPMC UMRS CR7-Inserm U1135-CNRS ERL, Paris, France

DOI: https://doi.org/10.3389/fimmu.2021.670956
Journal volume & issue: Vol. 12

Abstract

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Detection of alloreactive anti-HLA antibodies is a frequent and mandatory test before and after organ transplantation to determine the antigenic targets of the antibodies. Nowadays, this test involves the measurement of fluorescent signals generated through antibody–antigen reactions on multi-beads flow cytometers. In this study, in a cohort of 1,066 patients from one country, anti-HLA class I responses were analyzed on a panel of 98 different antigens. Knowing that the immune system responds typically to “shared” antigenic targets, we studied the clustering patterns of antibody responses against HLA class I antigens without any a priori hypothesis, applying two unsupervised machine learning approaches. At first, the principal component analysis (PCA) projections of intra-locus specific responses showed that anti-HLA-A and anti-HLA-C were the most distantly projected responses in the population with the anti-HLA-B responses to be projected between them. When PCA was applied on the responses against antigens belonging to a single locus, some already known groupings were confirmed while several new cross-reactive patterns of alloreactivity were detected. Anti-HLA-A responses projected through PCA suggested that three cross-reactive groups accounted for about 70% of the variance observed in the population, while anti-HLA-B responses were mainly characterized by a distinction between previously described Bw4 and Bw6 cross-reactive groups followed by several yet undocumented or poorly described ones. Furthermore, anti-HLA-C responses could be explained by two major cross-reactive groups completely overlapping with previously described C1 and C2 allelic groups. A second feature-based analysis of all antigenic specificities, projected as a dendrogram, generated a robust measure of allelic antigenic distances depicting bead-array defined cross reactive groups. Finally, amino acid combinations explaining major population specific cross-reactive groups were described. The interpretation of the results was based on the current knowledge of the antigenic targets of the antibodies as they have been characterized either experimentally or computationally and appear at the HLA epitope registry.

Published in Frontiers in Immunology

ISSN: 1664-3224 (Online)
Publisher: Frontiers Media S.A.
Country of publisher: Switzerland
LCC subjects: Medicine: Internal medicine: Specialties of internal medicine: Immunologic diseases. Allergy
Website: http://journal.frontiersin.org/journal/immunology

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