Inborn errors of immunity underlie clonal T cell expansions in large granular lymphocyte leukemia
Carlos Bravo-Perez, … , Valeria Visconte, Jaroslaw P. Maciejewski
Carlos Bravo-Perez, … , Valeria Visconte, Jaroslaw P. Maciejewski
Published May 1, 2025
Citation Information: J Clin Invest. 2025;135(9):e184431. https://doi.org/10.1172/JCI184431.
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Clinical Research and Public Health Genetics Hematology

Inborn errors of immunity underlie clonal T cell expansions in large granular lymphocyte leukemia

Abstract

BACKGROUND T cell large granular lymphocyte leukemia (T-LGLL) is a lymphoproliferative disorder of cytotoxic T lymphocytes (CTLs), often with gain-of-function STAT3 mutations. T-LGLL represents a unique model for the study of persistent CTL expansions. Albeit autoimmunity is implied, various paradoxical observations led us to investigate whether immunodeficiency traits underpin T-LGLL.METHODS This is a comprehensive immunogenomic study of 92 consecutive patients from a large T-LGLL cohort with full laboratory-clinical characterization (n = 271). Whole-exome profiling of variants associated with inborn errors of immunity (IEI) and somatic mutations in T cell lymphoid drivers was analyzed. Single-cell RNA-Seq and TCR-Seq in T-LGLL samples and RNA-Seq in T cell cancer cell lines were utilized to establish biological correlations.RESULTS Lymphocytopenia and/or hypogammaglobulinemia were identified in 186 of 241 (77%) T-LGLL patients. Genetic screening for IEI revealed 43 rare heterozygous variants in 38 different immune genes in 34 of 92 (36%) patients (vs. 167/63,026 [0.26%] in controls). High-confidence deleterious variants associated with dominant, adult-onset IEIs were detected in 15 of 92 (16%) patients. Carriers showed atypical features otherwise tied to the cryptic IEI, such as earlier onset, lower lymphocyte counts, lower STAT3 mutational rate, and higher proportions of hypogammaglobulinemia and immune cytopenia/bone marrow failure than noncarriers. Somatic mutational landscape, RNA-Seq, and TCR-Seq analyses supported immune imbalance caused by the IEI variants and interactions with somatic mutations in T cell lymphoid drivers.CONCLUSIONS Our findings in T-LGLL reveal that maladaptive CTL expansions may stem from cryptic immunodeficiency traits and open the horizon of IEIs to clonal hematopoiesis and bone marrow failure.FUNDING NIH; Aplastic Anemia and MDS International Foundation; VeloSano; Edward P. Evans Foundation; Instituto de Salud Carlos III; European Research Council; European Research Area Network on Personalised Medicine; Academy Finland; Cancer Foundation Finland.

Authors

Carlos Bravo-Perez, Carmelo Gurnari, Jani Huuhtanen, Naomi Kawashima, Luca Guarnera, Aashray Mandala, Nakisha D. Williams, Christopher Haddad, Michaela Witt, Serhan Unlu, Zachary Brady, Olisaemeka Ogbue, Mark Orland, Arooj Ahmed, Yasuo Kubota, Simona Pagliuca, Arda Durmaz, Satu Mustjoki, Valeria Visconte, Jaroslaw P. Maciejewski

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Figure 3

Mutations in 13 IEI genes with hcD variants identified in T-LGLL patients.

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Mutations in 13 IEI genes with hcD variants identified in T-LGLL patient...
Annotation of the domains of the proteins coded by the canonical transcripts was extracted from Ensembl and UniProt.json files. For TCIRG1, exon-protein correlations for both the canonical and alternative transcripts are shown. The mutations labeled in red with the amino acid change are the ones found in our study. The plot additionally displays rare (MAF < 1%) deleterious variants previously reported in these genes using gnomAD genomic browser, version 4.1.0, integrating pathogenicity predictors and variant frequency (number of variants reported in gnomAD). LOF/pLOF, loss of function/predicted LOF; NOS, region/domain not otherwise specified.