Abstract
T-cell acute lymphoblastic leukemia (T-ALL) comprises molecularly diverse subtypes, but robust cross-cohort validations and operational gene-expression definitions are lacking. To establish a gene-expression-anchored framework for T-ALL subtyping, we aggregated 2,314 transcriptomes (15 cohorts, age: 0.8 to 90.8 years). An extended unsupervised approach defined 17 main clusters and 3 subclusters in samples with high blast fractions. Supervised analyses added an overarching immature T-ALL (ETP-like) definition and resolved the LMO2 γδ-like subtype. All clusters contained samples from at least two cohorts. Characteristic genomic driver enrichments were consistent across cohorts, while gene expression clusters did not correspond exclusively to single driver events but also reflected developmental origins. A machine learning classifier based on ALLCatchR, our B-ALL classifier, identified these 20 transcriptomic subtypes and the immature T-ALL (ETP-like) signature with 0.995-1.0 accuracy in a validation set (n=203). Testing the classifier on a second hold-out data set (n=265 samples) showed that 92.7% of predictions matched with corresponding driver alterations. Across all samples, 83.2% of cases received high-confidence predictions, 7.3% candidate predictions, and 9.5% remained unclassified, largely because of low blast fractions. We identified a novel gene expression cluster markedly enriched ( P <0.001) for clonal hematopoiesis mutations ( IDH2 R140Q, DNMT3A ) and a stem-/progenitor cell-like gene expression. This novel ‘clonal hematopoiesis-related’ T-ALL subtype was observed in six cohorts representing 8.9% of adults and 39.5% of patients aged >50 years. We advanced ALLCatchR, as a free R package that now enables B-/T-lineage separation, gene-expression subtyping, blast estimation, and developmental annotation to harmonize T-ALL classification across studies and clinical contexts. Key Points Established using 2,314 T-ALL transcriptomes, ALLCatchR2 assigns 20 RNA-Seq subtypes and their developmental underpinnings across ages. Clonal hematopoiesis-related T-ALL ( DNMT3A , IDH2 R140Q ) defines an immature gene-expression cluster in ∼40% of patients aged >50 years.
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Abstract
T cell acute lymphoblastic leukemia (T-ALL) comprises molecular diverse subtypes, currently lacking robust cross-cohort validations and operational gene expression definitions. To establish a gene expression anchored framework for T-ALL subtyping, we aggregated 2,314 transcriptomes (15 cohorts, age: 0.8 to 90.8 years). An extended unsupervised approach defined 17 main clusters and 3 sub-clusters in high blast fraction samples. Supervised analysis added an overarching immature ‘ETP-like’ definition and resolved the LMO2 γδ-like subtype. All clusters were populated by samples from at least two cohorts. Characteristic genomic driver enrichment agreed across cohorts, while gene expression clusters did not correspond exclusively to single driver events but also reflected developmental origins. A machine learning classifier based on ALLCatchR – our B-ALL classifier – identified these 21 transcriptomic definitions with 0.995-1.0 accuracy in a validation set (n=203). Testing the classifier on a hold-out data set (n=265 samples) showed that 92.7% of predictions matched with corresponding driver alterations. Across all samples, 88.5% of cases were high-confidence, 6.5% candidate predictions and 5.0% remained unclassified, largely due to low blast fractions. We identified a novel gene expression cluster markedly enriched (P<0.001) for clonal hematopoiesis mutations (IDH2 R140Q, DNMT3A) and a stem-/progenitor cell-like gene expression. This novel ‘clonal hematopoiesis-related’ T-ALL subtype was observed in six cohorts representing 8.9% of adults and 39.5% of patients aged >50 years. We advanced ALLCatchR, a free R package which now enables B- /T- lineage separation, gene-expression subtyping, blast estimation, and developmental annotation to harmonize T-ALL classification across studies and clinical contexts.
Key Points
Established on 2,314 T-ALL transcriptomes, ALLCatchR now assigns 20 RNA-Seq subtypes and their developmental underpinnings across ages.
Clonal hematopoiesis related T-ALL (DNMT3A, IDH2 R140Q) defines an immature gene expression cluster in ∼40% of patients >50 years.
Competing Interest Statement
The authors have declared no competing interest.
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