TY - JOUR
T1 - Down-regulation of the RUNX1-target gene NR4A3 contributes to hematopoiesis deregulation in familial platelet disorder/acute myelogenous leukemia
AU - Bluteau, Dominique
AU - Gilles, Laure
AU - Hilpert, Morgane
AU - Antony-Debré, Iléana
AU - James, Chloe
AU - Debili, Najet
AU - Camara-Clayette, Valerie
AU - Wagner-Ballon, Orianne
AU - Cordette-Lagarde, Veronique
AU - Robert, Thomas
AU - Ripoche, Hugues
AU - Gonin, Patrick
AU - Swierczek, Sabina
AU - Prchal, Josef
AU - Vainchenker, William
AU - Favier, Remi
AU - Raslova, Hana
PY - 2011/12/8
Y1 - 2011/12/8
N2 - RUNX1 encodes a DNA-binding α subunit of the core-binding factor, a heterodimeric transcription factor. RUNX1 is a master regulatory gene in hematopoiesis and its disruption is one of the most common aberrations in acute leukemia. Inactivating or dominant-negative mutations in the RUNX1 gene have been also identified in pedigrees of familial platelet disorders with a variable propensity to develop acute myeloid leukemia (FPD/AML). We performed analysis of hematopoiesis from 2 FPD/AML pedigrees with 2 distinct RUNX1 germline mutations, that is, the R139X in a pedigree without AML and the R174Q mutation in a pedigree with AML. Both mutations induced a marked increase in the clonogenic potential of immature CD34+ CD38- progenitors, with some selfrenewal capacities observed only for R174Q mutation. This increased proliferation correlated with reduction in the expression of NR4A3, a gene previously implicated in leukemia development. We demonstrated that NR4A3 was a direct target of RUNX1 and that restoration of NR4A3 expression partially reduced the clonogenic potential of patient progenitors. We propose that the down-regulation of NR4A3 in RUNX1-mutated hematopoietic progenitors leads to an increase in the pool of cells susceptible to be hit by secondary leukemic genetic events.
AB - RUNX1 encodes a DNA-binding α subunit of the core-binding factor, a heterodimeric transcription factor. RUNX1 is a master regulatory gene in hematopoiesis and its disruption is one of the most common aberrations in acute leukemia. Inactivating or dominant-negative mutations in the RUNX1 gene have been also identified in pedigrees of familial platelet disorders with a variable propensity to develop acute myeloid leukemia (FPD/AML). We performed analysis of hematopoiesis from 2 FPD/AML pedigrees with 2 distinct RUNX1 germline mutations, that is, the R139X in a pedigree without AML and the R174Q mutation in a pedigree with AML. Both mutations induced a marked increase in the clonogenic potential of immature CD34+ CD38- progenitors, with some selfrenewal capacities observed only for R174Q mutation. This increased proliferation correlated with reduction in the expression of NR4A3, a gene previously implicated in leukemia development. We demonstrated that NR4A3 was a direct target of RUNX1 and that restoration of NR4A3 expression partially reduced the clonogenic potential of patient progenitors. We propose that the down-regulation of NR4A3 in RUNX1-mutated hematopoietic progenitors leads to an increase in the pool of cells susceptible to be hit by secondary leukemic genetic events.
UR - http://www.scopus.com/inward/record.url?scp=83455210382&partnerID=8YFLogxK
U2 - 10.1182/blood-2010-12-325555
DO - 10.1182/blood-2010-12-325555
M3 - Article
C2 - 21725049
AN - SCOPUS:83455210382
SN - 0006-4971
VL - 118
SP - 6310
EP - 6320
JO - Blood
JF - Blood
IS - 24
ER -