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A large uptick in DNA methylation occurs at the time of progression in patients with Philadelphia chromosome–positive chronic myeloid leukemia (CML), according to results from a comparative cohort study. The observation raises the possibility of new therapeutic targets for advanced disease.
Researchers led by Gerwin Heller, PhD, of the Medical University of Vienna’s Clinical Division of Oncology and Comprehensive Cancer Center, Austria, collected peripheral blood mononuclear cells from 23 patients with CML during various disease phases (chronic phase in 17, acute phase in 5, and blast crisis in 9) and from 5 healthy controls.
They isolated DNA and analyzed it with a novel next-generation sequencing approach, known as reduced representation bisulfite sequencing, to identify the presence and extent of methylation.
Compared with the healthy controls, patients in chronic-phase CML had 666 differentially methylated CpG (cytosine-phosphate-guanine) sites, whereas those in blast crisis had 6,912 differentially methylated CpG sites (Leukemia. 2016;30:1861-8). Some 44% of the former but 88% of the latter affected CpG sites showed increased methylation.
Among patients with chronic-phase CML who experienced progression to the accelerated phase or blast crisis, analyses identified between 344 and 897 genes that were methylated at the time of progression but had not been at the time of diagnosis.
RNA sequencing determined that many of these newly methylated genes showed downregulated expression in the samples collected during blast crisis, compared with those collected during chronic phase disease. These genes included some tumor suppressor genes (EPB41L3, PRDX2), regulators of cell proliferation (BCL11B, NDRG2, PID1), and regulators of drug metabolism (CYP1B1), among others.
Treatment of CML cells with the epigenetically active drugs azacitidine (a DNA methyltransferase inhibitor) and trichostatin A (a histone deacetylase inhibitor) led to re-expression of the CYP1B1 gene.
“Together, our results demonstrate that CpG site methylation clearly increases during CML progression and that it may provide a useful basis for revealing new targets of therapy in advanced CML,” wrote Dr. Heller and colleagues, who disclosed that one of them has received research grants from Novartis and Ariad.
“Our findings suggest that investigating the efficacy of [DNA methyltransferase inhibitors] in patients with progressed CML should be considered,” they said.
A large uptick in DNA methylation occurs at the time of progression in patients with Philadelphia chromosome–positive chronic myeloid leukemia (CML), according to results from a comparative cohort study. The observation raises the possibility of new therapeutic targets for advanced disease.
Researchers led by Gerwin Heller, PhD, of the Medical University of Vienna’s Clinical Division of Oncology and Comprehensive Cancer Center, Austria, collected peripheral blood mononuclear cells from 23 patients with CML during various disease phases (chronic phase in 17, acute phase in 5, and blast crisis in 9) and from 5 healthy controls.
They isolated DNA and analyzed it with a novel next-generation sequencing approach, known as reduced representation bisulfite sequencing, to identify the presence and extent of methylation.
Compared with the healthy controls, patients in chronic-phase CML had 666 differentially methylated CpG (cytosine-phosphate-guanine) sites, whereas those in blast crisis had 6,912 differentially methylated CpG sites (Leukemia. 2016;30:1861-8). Some 44% of the former but 88% of the latter affected CpG sites showed increased methylation.
Among patients with chronic-phase CML who experienced progression to the accelerated phase or blast crisis, analyses identified between 344 and 897 genes that were methylated at the time of progression but had not been at the time of diagnosis.
RNA sequencing determined that many of these newly methylated genes showed downregulated expression in the samples collected during blast crisis, compared with those collected during chronic phase disease. These genes included some tumor suppressor genes (EPB41L3, PRDX2), regulators of cell proliferation (BCL11B, NDRG2, PID1), and regulators of drug metabolism (CYP1B1), among others.
Treatment of CML cells with the epigenetically active drugs azacitidine (a DNA methyltransferase inhibitor) and trichostatin A (a histone deacetylase inhibitor) led to re-expression of the CYP1B1 gene.
“Together, our results demonstrate that CpG site methylation clearly increases during CML progression and that it may provide a useful basis for revealing new targets of therapy in advanced CML,” wrote Dr. Heller and colleagues, who disclosed that one of them has received research grants from Novartis and Ariad.
“Our findings suggest that investigating the efficacy of [DNA methyltransferase inhibitors] in patients with progressed CML should be considered,” they said.
A large uptick in DNA methylation occurs at the time of progression in patients with Philadelphia chromosome–positive chronic myeloid leukemia (CML), according to results from a comparative cohort study. The observation raises the possibility of new therapeutic targets for advanced disease.
Researchers led by Gerwin Heller, PhD, of the Medical University of Vienna’s Clinical Division of Oncology and Comprehensive Cancer Center, Austria, collected peripheral blood mononuclear cells from 23 patients with CML during various disease phases (chronic phase in 17, acute phase in 5, and blast crisis in 9) and from 5 healthy controls.
They isolated DNA and analyzed it with a novel next-generation sequencing approach, known as reduced representation bisulfite sequencing, to identify the presence and extent of methylation.
Compared with the healthy controls, patients in chronic-phase CML had 666 differentially methylated CpG (cytosine-phosphate-guanine) sites, whereas those in blast crisis had 6,912 differentially methylated CpG sites (Leukemia. 2016;30:1861-8). Some 44% of the former but 88% of the latter affected CpG sites showed increased methylation.
Among patients with chronic-phase CML who experienced progression to the accelerated phase or blast crisis, analyses identified between 344 and 897 genes that were methylated at the time of progression but had not been at the time of diagnosis.
RNA sequencing determined that many of these newly methylated genes showed downregulated expression in the samples collected during blast crisis, compared with those collected during chronic phase disease. These genes included some tumor suppressor genes (EPB41L3, PRDX2), regulators of cell proliferation (BCL11B, NDRG2, PID1), and regulators of drug metabolism (CYP1B1), among others.
Treatment of CML cells with the epigenetically active drugs azacitidine (a DNA methyltransferase inhibitor) and trichostatin A (a histone deacetylase inhibitor) led to re-expression of the CYP1B1 gene.
“Together, our results demonstrate that CpG site methylation clearly increases during CML progression and that it may provide a useful basis for revealing new targets of therapy in advanced CML,” wrote Dr. Heller and colleagues, who disclosed that one of them has received research grants from Novartis and Ariad.
“Our findings suggest that investigating the efficacy of [DNA methyltransferase inhibitors] in patients with progressed CML should be considered,” they said.
FROM LEUKEMIA
Key clinical point: Increases in DNA methylation occur at progression of Ph+ CML; this realization may enable new therapeutic targets.
Major finding: Patients who progressed from chronic phase to accelerated phase or blast crisis had up to 897 genes that were newly methylated since diagnosis, including some tumor-suppressor genes and regulators of cell proliferation and drug metabolism.
Data source: A cohort study of 23 patients with CML and 5 healthy controls.
Disclosures: The investigators disclosed that one of the authors has received research grants from Novartis and Ariad.