TY - JOUR
T1 - Human erythroleukemia genetics and transcriptomes identify master transcription factors as functional disease drivers
AU - Fagnan, Alexandre
AU - Bagger, Frederik Otzen
AU - Piqué-Borràs, Maria Riera
AU - Ignacimouttou, Cathy
AU - Caulier, Alexis
AU - Lopez, Cécile K.
AU - Robert, Elie
AU - Uzan, Benjamin
AU - Gelsi-Boyer, Véronique
AU - Aid, Zakia
AU - Thirant, Cécile
AU - Moll, Ute
AU - Tauchmann, Samantha
AU - Kurtovic-Kozaric, Amina
AU - Maciejewski, Jaroslaw
AU - Dierks, Christine
AU - Spinelli, Orietta
AU - Salmoiraghi, Silvia
AU - Pabst, Thomas
AU - Shimoda, Kazuya
AU - Deleuze, Virginie
AU - Lapillonne, Hélène
AU - Sweeney, Connor
AU - de Mas, Véronique
AU - Leite, Betty
AU - Kadri, Zahra
AU - Malinge, Sébastien
AU - de Botton, Stéphane
AU - Micol, Jean Baptiste
AU - Kile, Benjamin
AU - Carmichael, Catherine L.
AU - Iacobucci, Ilaria
AU - Mullighan, Charles G.
AU - Carroll, Martin
AU - Valent, Peter
AU - Bernard, Olivier A.
AU - Delabesse, Eric
AU - Vyas, Paresh
AU - Birnbaum, Daniel
AU - Anguita, Eduardo
AU - Garçon, Loïc
AU - Soler, Eric
AU - Schwaller, Juerg
AU - Mercher, Thomas
N1 - Publisher Copyright:
© 2020 by The American Society of Hematology
PY - 2020/8/6
Y1 - 2020/8/6
N2 - Acute erythroleukemia (AEL or acute myeloid leukemia [AML]-M6) is a rare but aggressive hematologic malignancy. Previous studies showed that AEL leukemic cells often carry complex karyotypes and mutations in known AML-associated oncogenes. To better define the underlying molecular mechanisms driving the erythroid phenotype, we studied a series of 33 AEL samples representing 3 genetic AEL subgroups including TP53-mutated, epigenetic regulator-mutated (eg, DNMT3A, TET2, or IDH2), and undefined cases with low mutational burden. We established an erythroid vs myeloid transcriptome-based space in which, independently of the molecular subgroup, the majority of the AEL samples exhibited a unique mapping different from both non-M6 AML and myelodysplastic syndrome samples. Notably, >25% of AEL patients, including in the genetically undefined subgroup, showed aberrant expression of key transcriptional regulators, including SKI, ERG, and ETO2. Ectopic expression of these factors in murine erythroid progenitors blocked in vitro erythroid differentiation and led to immortalization associated with decreased chromatin accessibility at GATA1-binding sites and functional interference with GATA1 activity. In vivo models showed development of lethal erythroid, mixed erythroid/myeloid, or other malignancies depending on the cell population in which AEL-associated alterations were expressed. Collectively, our data indicate that AEL is a molecularly heterogeneous disease with an erythroid identity that results in part from the aberrant activity of key erythroid transcription factors in hematopoietic stem or progenitor cells.
AB - Acute erythroleukemia (AEL or acute myeloid leukemia [AML]-M6) is a rare but aggressive hematologic malignancy. Previous studies showed that AEL leukemic cells often carry complex karyotypes and mutations in known AML-associated oncogenes. To better define the underlying molecular mechanisms driving the erythroid phenotype, we studied a series of 33 AEL samples representing 3 genetic AEL subgroups including TP53-mutated, epigenetic regulator-mutated (eg, DNMT3A, TET2, or IDH2), and undefined cases with low mutational burden. We established an erythroid vs myeloid transcriptome-based space in which, independently of the molecular subgroup, the majority of the AEL samples exhibited a unique mapping different from both non-M6 AML and myelodysplastic syndrome samples. Notably, >25% of AEL patients, including in the genetically undefined subgroup, showed aberrant expression of key transcriptional regulators, including SKI, ERG, and ETO2. Ectopic expression of these factors in murine erythroid progenitors blocked in vitro erythroid differentiation and led to immortalization associated with decreased chromatin accessibility at GATA1-binding sites and functional interference with GATA1 activity. In vivo models showed development of lethal erythroid, mixed erythroid/myeloid, or other malignancies depending on the cell population in which AEL-associated alterations were expressed. Collectively, our data indicate that AEL is a molecularly heterogeneous disease with an erythroid identity that results in part from the aberrant activity of key erythroid transcription factors in hematopoietic stem or progenitor cells.
UR - http://www.scopus.com/inward/record.url?scp=85086387637&partnerID=8YFLogxK
U2 - 10.1182/blood.2019003062
DO - 10.1182/blood.2019003062
M3 - Article
C2 - 32350520
AN - SCOPUS:85086387637
SN - 0006-4971
VL - 136
SP - 698
EP - 714
JO - Blood
JF - Blood
IS - 6
ER -