TY - JOUR
T1 - Chromosomal instability in aneuploid acute lymphoblastic leukemia associates with disease progression
AU - Molina, Oscar
AU - Ortega-Sabater, Carmen
AU - Thampi, Namitha
AU - Fernández-Fuentes, Narcís
AU - Guerrero-Murillo, Mercedes
AU - Martínez-Moreno, Alba
AU - Vinyoles, Meritxell
AU - Velasco-Hernández, Talía
AU - Bueno, Clara
AU - Trincado, Juan L
AU - Granada, Isabel
AU - Campos, Diana
AU - Giménez, Carles
AU - Boer, Judith M
AU - den Boer, Monique L
AU - Calvo, Gabriel F
AU - Camós, Mireia
AU - Fuster, Jose-Luis
AU - Velasco, Pablo
AU - Ballerini, Paola
AU - Locatelli, Franco
AU - Mullighan, Charles G
AU - Spierings, Diana C J
AU - Foijer, Floris
AU - Pérez-García, Víctor M
AU - Menéndez, Pablo
N1 - © 2023. The Author(s).
PY - 2024/1
Y1 - 2024/1
N2 - Chromosomal instability (CIN) lies at the core of cancer development leading to aneuploidy, chromosomal copy-number heterogeneity (chr-CNH) and ultimately, unfavorable clinical outcomes. Despite its ubiquity in cancer, the presence of CIN in childhood B-cell acute lymphoblastic leukemia (cB-ALL), the most frequent pediatric cancer showing high frequencies of aneuploidy, remains unknown. Here, we elucidate the presence of CIN in aneuploid cB-ALL subtypes using single-cell whole-genome sequencing of primary cB-ALL samples and by generating and functionally characterizing patient-derived xenograft models (cB-ALL-PDX). We report higher rates of CIN across aneuploid than in euploid cB-ALL that strongly correlate with intraclonal chr-CNH and overall survival in mice. This association was further supported by in silico mathematical modeling. Moreover, mass-spectrometry analyses of cB-ALL-PDX revealed a "CIN signature" enriched in mitotic-spindle regulatory pathways, which was confirmed by RNA-sequencing of a large cohort of cB-ALL samples. The link between the presence of CIN in aneuploid cB-ALL and disease progression opens new possibilities for patient stratification and offers a promising new avenue as a therapeutic target in cB-ALL treatment.
AB - Chromosomal instability (CIN) lies at the core of cancer development leading to aneuploidy, chromosomal copy-number heterogeneity (chr-CNH) and ultimately, unfavorable clinical outcomes. Despite its ubiquity in cancer, the presence of CIN in childhood B-cell acute lymphoblastic leukemia (cB-ALL), the most frequent pediatric cancer showing high frequencies of aneuploidy, remains unknown. Here, we elucidate the presence of CIN in aneuploid cB-ALL subtypes using single-cell whole-genome sequencing of primary cB-ALL samples and by generating and functionally characterizing patient-derived xenograft models (cB-ALL-PDX). We report higher rates of CIN across aneuploid than in euploid cB-ALL that strongly correlate with intraclonal chr-CNH and overall survival in mice. This association was further supported by in silico mathematical modeling. Moreover, mass-spectrometry analyses of cB-ALL-PDX revealed a "CIN signature" enriched in mitotic-spindle regulatory pathways, which was confirmed by RNA-sequencing of a large cohort of cB-ALL samples. The link between the presence of CIN in aneuploid cB-ALL and disease progression opens new possibilities for patient stratification and offers a promising new avenue as a therapeutic target in cB-ALL treatment.
UR - https://www.mendeley.com/catalogue/d4178d43-fdfd-3e3c-9e11-60801787a335/
U2 - 10.1038/s44321-023-00006-w
DO - 10.1038/s44321-023-00006-w
M3 - Article
C2 - 38177531
SN - 1757-4676
VL - 16
SP - 64
EP - 92
JO - EMBO molecular medicine
JF - EMBO molecular medicine
IS - 1
M1 - 38177531
ER -