TY - JOUR
T1 - The evolution of relapse of adult T cell acute lymphoblastic leukemia
AU - Sentís, Inés
AU - González, Santiago
AU - Genescà, Eulàlia
AU - García-Hernández, Violeta
AU - Muiños, Ferran
AU - González Gil, Celia
AU - López-Arribillaga, Erika
AU - González, Jéssica
AU - Fernández Ibarrondo, Lierni
AU - Mularoni, Loris
AU - Espinosa, Lluís
AU - Bellosillo Paricio, Beatriz
AU - Ribera, Jose-Maria
AU - Bigas Salvans, Anna
AU - Gonzalez-Perez, Abel
AU - Lopez-Bigas, Nuria
PY - 2020
Y1 - 2020
N2 - Background: Adult T cell acute lymphoblastic leukemia (T-ALL) is a rare disease that affects less than 10 individuals in one million. It has been less studied than its cognate pediatric malignancy, which is more prevalent. A higher percentage of the adult patients relapse, compared to children. It is thus essential to study the mechanisms of relapse of adult T-ALL cases. Results: We profile whole-genome somatic mutations of 19 primary T-ALLs from adult patients and the corresponding relapse malignancies and analyze their evolution upon treatment in comparison with 238 pediatric and young adult ALL cases. We compare the mutational processes and driver mutations active in primary and relapse adult T-ALLs with those of pediatric patients. A precise estimation of clock-like mutations in leukemic cells shows that the emergence of the relapse clone occurs several months before the diagnosis of the primary T-ALL. Specifically, through the doubling time of the leukemic population, we find that in at least 14 out of the 19 patients, the population of relapse leukemia present at the moment of diagnosis comprises more than one but fewer than 10 blasts. Using simulations, we show that in all patients the relapse appears to be driven by genetic mutations. Conclusions: The early appearance of a population of leukemic cells with genetic mechanisms of resistance across adult T-ALL cases constitutes a challenge for treatment. Improving early detection of the malignancy is thus key to prevent its relapse.
AB - Background: Adult T cell acute lymphoblastic leukemia (T-ALL) is a rare disease that affects less than 10 individuals in one million. It has been less studied than its cognate pediatric malignancy, which is more prevalent. A higher percentage of the adult patients relapse, compared to children. It is thus essential to study the mechanisms of relapse of adult T-ALL cases. Results: We profile whole-genome somatic mutations of 19 primary T-ALLs from adult patients and the corresponding relapse malignancies and analyze their evolution upon treatment in comparison with 238 pediatric and young adult ALL cases. We compare the mutational processes and driver mutations active in primary and relapse adult T-ALLs with those of pediatric patients. A precise estimation of clock-like mutations in leukemic cells shows that the emergence of the relapse clone occurs several months before the diagnosis of the primary T-ALL. Specifically, through the doubling time of the leukemic population, we find that in at least 14 out of the 19 patients, the population of relapse leukemia present at the moment of diagnosis comprises more than one but fewer than 10 blasts. Using simulations, we show that in all patients the relapse appears to be driven by genetic mutations. Conclusions: The early appearance of a population of leukemic cells with genetic mechanisms of resistance across adult T-ALL cases constitutes a challenge for treatment. Improving early detection of the malignancy is thus key to prevent its relapse.
KW - ALL relapse
KW - Adult acute lymphoblastic leukemia
KW - Evolution of leukemia relapse
KW - T-ALL
KW - T-ALL evolution under therapy
U2 - 10.1186/s13059-020-02192-z
DO - 10.1186/s13059-020-02192-z
M3 - Article
C2 - 33225950
SN - 1474-760X
VL - 21
JO - Genome Biology
JF - Genome Biology
IS - 1
ER -