3 research outputs found
Hypermethylation of the alternative AWT1 promoter in hematological malignancies is a highly specific marker for acute myeloid leukemias despite high expression levels
Abstract
Background: Wilms tumor 1 (WT1) is over-expressed in numerous cancers with respect to normal cells, and has
either a tumor suppressor or oncogenic role depending on cellular context. This gene is associated with numerous
alternatively spliced transcripts, which initiate from two different unique first exons within the WT1 and the
alternative (A)WT1 promoter intervals. Within the hematological system, WT1 expression is restricted to CD34+/
CD38- cells and is undetectable after differentiation. Detectable expression of this gene is an excellent marker for
minimal residual disease in acute myeloid leukemia (AML), but the underlying epigenetic alterations are unknown.
Methods:
To determine the changes in the underlying epigenetic landscape responsible for this expression, we characterized expression, DNA methylation and histone modification profiles in 28 hematological cancer cell
lines and confirmed the methylation signature in 356 cytogenetically well-characterized primary hematological
malignancies.
Results:
Despite high expression of WT1 and AWT1 transcripts in AML-derived cell lines, we observe robust
hypermethylation of the AWT1 promoter and an epigenetic switch from a permissive to repressive chromatin
structure between normal cells and AML cell lines. Subsequent methylation analysis in our primary leukemia and
lymphoma cohort revealed that the epigenetic signature identified in cell lines is specific to myeloid-lineage
malignancies, irrespective of underlying mutational status or translocation. In addition to being a highly specific
marker for AML diagnosis (positive predictive value 100%; sensitivity 86.1%; negative predictive value 89.4%), we
show that AWT1 hypermethylation also discriminates patients that relapse from those achieving complete remission
after hematopoietic stem cell transplantation, with similar efficiency to WT1 expression profiling.
Conclusions:
We describe a methylation signature of the AWT1 promoter CpG island that is a promising marker
for classifying myeloid-derived leukemias. In addition AWT1 hypermethylation is ideally suited to monitor the
recurrence of disease during remission in patients undergoing allogeneic stem cell transfer
Role of Intracellular Drug Disposition in the Response of Acute Myeloid Leukemia to Cytarabine and Idarubicin Induction Chemotherapy
Despite its often low efficacy and high toxicity, the standard treatment for acute myeloid leukemia (AML) is induction chemotherapy with cytarabine and idarubicin. Here, we have investigated the role of transporters and drug-metabolizing enzymes in this poor outcome. The expression levels (RT-qPCR) of potentially responsible genes in blasts collected at diagnosis were related to the subsequent response to two-cycle induction chemotherapy. The high expression of uptake carriers (ENT2), export ATP-binding cassette (ABC) pumps (MDR1), and enzymes (DCK, 5-NT, and CDA) in the blasts was associated with a lower response. Moreover, the sensitivity to cytarabine in AML cell lines was associated with ENT2 expression, whereas the expression of ABC pumps and enzymes was reduced. No ability of any AML cell line to export idarubicin through the ABC pumps, MDR1 and MRP, was found. The exposure of AML cells to cytarabine or idarubicin upregulated the detoxifying enzymes (5-NT and DCK). In AML patients, 5-NT and DCK expression was associated with the lack of response to induction chemotherapy (high sensitivity and specificity). In conclusion, in the blasts of AML patients, the reduction of the intracellular concentration of the active metabolite of cytarabine, mainly due to the increased expression of inactivating enzymes, can determine the response to induction chemotherapy
Hypermethylation of the alternative AWT1 promoter in hematological malignancies is a highly specific marker for acute myeloid leukemias despite high expression levels
Abstract
Background: Wilms tumor 1 (WT1) is over-expressed in numerous cancers with respect to normal cells, and has
either a tumor suppressor or oncogenic role depending on cellular context. This gene is associated with numerous
alternatively spliced transcripts, which initiate from two different unique first exons within the WT1 and the
alternative (A)WT1 promoter intervals. Within the hematological system, WT1 expression is restricted to CD34+/
CD38- cells and is undetectable after differentiation. Detectable expression of this gene is an excellent marker for
minimal residual disease in acute myeloid leukemia (AML), but the underlying epigenetic alterations are unknown.
Methods:
To determine the changes in the underlying epigenetic landscape responsible for this expression, we characterized expression, DNA methylation and histone modification profiles in 28 hematological cancer cell
lines and confirmed the methylation signature in 356 cytogenetically well-characterized primary hematological
malignancies.
Results:
Despite high expression of WT1 and AWT1 transcripts in AML-derived cell lines, we observe robust
hypermethylation of the AWT1 promoter and an epigenetic switch from a permissive to repressive chromatin
structure between normal cells and AML cell lines. Subsequent methylation analysis in our primary leukemia and
lymphoma cohort revealed that the epigenetic signature identified in cell lines is specific to myeloid-lineage
malignancies, irrespective of underlying mutational status or translocation. In addition to being a highly specific
marker for AML diagnosis (positive predictive value 100%; sensitivity 86.1%; negative predictive value 89.4%), we
show that AWT1 hypermethylation also discriminates patients that relapse from those achieving complete remission
after hematopoietic stem cell transplantation, with similar efficiency to WT1 expression profiling.
Conclusions:
We describe a methylation signature of the AWT1 promoter CpG island that is a promising marker
for classifying myeloid-derived leukemias. In addition AWT1 hypermethylation is ideally suited to monitor the
recurrence of disease during remission in patients undergoing allogeneic stem cell transfer