Somatic and Germline HLA Determinants of Immune Surveillance and Escape in Myelodysplastic Syndromes

While the contribution of canonical myeloid genetic drivers to myelodysplastic syndromes/neoplasms (MDS) pathobiology is well established, other genetic events operative under special circumstances, and by itself not constituting intrinsic drivers, may affect the disease course. These include geneti...

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Published in:Blood 2023-11, Vol.142 (Supplement 1), p.3220-3220
Main Authors: Gurnari, Carmelo, Durmaz, Arda, Kroger, Benjamin, Awada, Hussein, Chen, Jacky, Hercus, Colin, Hergalant, SĂ©bastien, Bravo-Perez, Carlos, Voso, Maria Teresa, Scott, Jacob, Visconte, Valeria, Chung, Stephen S., Maciejewski, Jaroslaw P., Pagliuca, Simona
Format: Article
Language:English
Subjects:
Biochemistry, Molecular Biology
Bioinformatics
Cancer
Computer Science
Genomics
Hematology
Human health and pathology
Immunology
Life Sciences
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Summary:While the contribution of canonical myeloid genetic drivers to myelodysplastic syndromes/neoplasms (MDS) pathobiology is well established, other genetic events operative under special circumstances, and by itself not constituting intrinsic drivers, may affect the disease course. These include genetic defects conveying resistance to specific therapies, clonally restricted DNA repair alterations favoring the accumulation of additional mutations, and/or lesions facilitating the resistance to inflammation or immune escape. Here, we focus on this latter aspect as it may shed light on the pressure exerted by immune tumor surveillance or acquired resistance to cancer immune therapies, a field that has lagged in myeloid neoplasia as compared to the dramatic changes obtained in solid tumors. We hypothesize that during MDS ontogeny and leukemia evolution a spectrum of immunological mechanisms may shape the oncogenic landscape and facilitate the emergence of clones with diverse immunogenic potential as targets, leading to selective immunotherapeutic liabilities. We accrued a clinically and molecularly well annotated cohort of 101 MDS patients at various stages of the disease spectrum [N=51 low risk (LR)-MDS, N=32 high risk (HR)-MDS, N=18 secondary AML-sAML)]. This cohort included specific clinical sub-entities wherein the contribution of immune forces appears to be a prominent feature i.e., hypocellular MDS (hMDS, N=9) or MDS with co-occurring T large granular lymphocytosis (LGL) (N=5). By combining human leukocyte antigen (HLA) and T cell receptor (TCR) immunosequencing at disease onset, we leveraged our bioinformatics expertise to impute HLA mutations and losses, HLA evolutionary divergence (HED), and characteristics of T cell repertoires. The median age of the whole cohort was 71.2 years (IQR: 63.4-77.7), and median bone marrow (BM) blast count was 3% (1-11%). Cytogenetics revealed normal karyotype in 41 patients (40%), while complex karyotype was observed in 21 (20%) and partial or complete loss of chromosome 7 in 10 cases (10%). Comparisons with a cohort of 784 ethnicity-matched healthy individuals (HC), showed no differences in terms of locus-specific HED configurations. However, when HED scores were analyzed across the disease spectrum, we observed a heterogeneous distribution in MDS patients for the HLA-C locus, with higher values in hypoplastic and LGL-associated MDS as compared to HR diseases (p= 0.0068) and sAML (p= 0.0409). The screening for immune evasio
ISSN:0006-4971
1528-0020
DOI:10.1182/blood-2023-178890