Identification of Biological Relevant Minor Histocompatibility Antigens within the B-lymphocyte-Derived HLA-Ligandome Using a Reverse Immunology Approach.

Purpose: T-cell recognition of minor histocompatibility antigens (MiHA) not only plays an important role in the beneficial graft-versus-leukemia (GVL) effect of allogeneic stem cell transplantation (allo-SCT) but also mediates serious GVH complications associated with allo-SCT. Using a reverse immunology approach, we aim to develop a method enabling the identification of T-cell responses directed against predefined antigens, with the goal to select those MiHAs that can be used clinically in combination with allo-SCT.

Experimental Design: In this study, we used a recently developed MiHA selection algorithm to select candidate MiHAs within the HLA-presented ligandome of transformed B cells. From the HLA-presented ligandome that predominantly consisted of monomorphic peptides, 25 polymorphic peptides with a clinically relevant allele frequency were selected. By high-throughput screening, the availability of high-avidity T cells specific for these MiHA candidates in different healthy donors was analyzed.

Results: With the use of MHC multimer enrichment, analyses of expanded T cells by combinatorial coding MHC multimer flow cytometry, and subsequent single-cell cloning, positive T-cell clones directed to two new MiHA: LB-CLYBL-1Y and LB-TEP1-1S could be demonstrated, indicating the immunogenicity of these two MiHAs.

Conclusions: The biologic relevance of MiHA LB-CLYBL-1Y was demonstrated by the detection of LB-CLYBL-1Y-specific T cells in a patient suffering from acute myeloid leukemia (AML) that experienced an anti-leukemic response after treatment with allo-SCT.