The epigenetic regulation of RIZ1 in human leukemia

Beaton-Brown, Erika Lauren Dawn

05 January 2009

Cancer has been thought of as a mostly genetic phenomenon, however recent research into epigenetic causes of cancer emphasizes that these causes of cancer are also important. RIZ1 is a tumor suppressor which is silenced in many human leukemias, such as human Acute Myeloid Leukemia and Chronic Myelogenous Leukemia. It was the goal of this thesis to re-express RIZ1 using three epigenetic drugs: decitabine, a DNA methylation inhibitor, Trichostatin A, a histone deacetylase inhibitor and chaetocin, an inhibitor of SUV39h1. Cells were treated with these drugs and analyzed for toxicity, methylation status, and RIZ1 expression levels. The synergy between the drugs was also determined. It was found that cells treated with decitabine and chaetocin had an induction of RIZ1 expression. Chaetocin induced RIZ1 expression without affecting the methylation status of the cell. Also, cells which were treated with decitabine paired with either Trichostatin A or chaetocin showed the highest amount of RIZ1 expression. Cells treated with all three drugs together had a higher amount of RIZ1 expression than cells treated with either drug alone, however had less expression than cells which had been treated with decitabine paired with either Trichostatin A or chaetocin. Using these data a model was developed in which H3K9 methylation is the dominant epigenetic event in transcriptional silencing.

Chaetocin

TSA

Decitabine

Epigenetics

RIZ1

The epigenetic regulation of RIZ1 in human leukemia

Beaton-Brown, Erika Lauren Dawn

05 January 2009

Cancer has been thought of as a mostly genetic phenomenon, however recent research into epigenetic causes of cancer emphasizes that these causes of cancer are also important. RIZ1 is a tumor suppressor which is silenced in many human leukemias, such as human Acute Myeloid Leukemia and Chronic Myelogenous Leukemia. It was the goal of this thesis to re-express RIZ1 using three epigenetic drugs: decitabine, a DNA methylation inhibitor, Trichostatin A, a histone deacetylase inhibitor and chaetocin, an inhibitor of SUV39h1. Cells were treated with these drugs and analyzed for toxicity, methylation status, and RIZ1 expression levels. The synergy between the drugs was also determined. It was found that cells treated with decitabine and chaetocin had an induction of RIZ1 expression. Chaetocin induced RIZ1 expression without affecting the methylation status of the cell. Also, cells which were treated with decitabine paired with either Trichostatin A or chaetocin showed the highest amount of RIZ1 expression. Cells treated with all three drugs together had a higher amount of RIZ1 expression than cells treated with either drug alone, however had less expression than cells which had been treated with decitabine paired with either Trichostatin A or chaetocin. Using these data a model was developed in which H3K9 methylation is the dominant epigenetic event in transcriptional silencing.

Chaetocin

TSA

Decitabine

Epigenetics

RIZ1

Regulation of DNA damage responses by the Myc oncogene : implications for future anti-cancer therapies

Höglund, Andreas

January 2011

Myc is a transcription factor frequently found deregulated in human cancer. Cells with deregulated expression of Myc carry a selective advantage against its neighbours due to the fact that Myc-mediated transcription governs crucial cellular events such as proliferation and growth. In addition, Myc has been implicated in several other aspects of tumour biology like cellular immortality, the formation of new blood vessels and the colonization of distant tissues through the process of metastasis. Therapy aimed at disrupting essential pathways regulated by Myc is important because of the many different types of cancers that depend on continued signalling along these pathways.  This thesis describes new treatment opportunities for cancers with a high Myc signature. In Paper Ι, we describe a new role for the DNA methyltransferase inhibitor Decitabine in the treatment of Myc transformed tumours cells. We show that the therapeutic potential of Decitabine in the treatment of Burkitt Lymphoma relies not only on its ability to cause reactivation of silenced genes such as pro-apoptotic PUMA, but also on the DNA damage that this drug induces. In vivo, Decitabine delays disease progression of transplanted lymphoma cells. In Paper ΙΙ, we identify the DNA damage checkpoint kinase Chk1 as a therapeutic target in Myc overexpressing cancers. We show that targeting Chk1 with shRNA or with a novel small molecule inhibitor cause a delay in disease progression of transplanted lymphoma cells in vivo. In Paper ΙΙΙ, the Chk1-related kinase Chk2 is evaluated as a therapeutic target in Myc overexpressing cancers. Myc overexpressing cells are not dependent on Chk2 but we show that Chk2 abrogation using shRNA causes polyploidization and protection against DNA damage. However, Chk2-targeted therapy elicits a synergistic lethal response in combination with inhibition of the DNA repair associated protein PARP. In conclusion, this thesis shows the potential of targeting the DNA damage machinery and the functional hubs important for maintenance of genomic stability in tumours with a deregulated expression of Myc.

Myc

DNA damage

Decitabine

Chk1

Chk2

Molecular biology

Molekylärbiologi

Assessment of therapeutic targets in experimental models of Myc-induced lymphoma

Plym Forshell, Linus

January 2011

The Myc transcription factor activates expression of genes that promote cellular functions such as proliferation and cell growth. The deregulated Myc expression, characteristic for the tumor cell, also activates apoptosis, which selects for additional genetic changes deactivating the induced cell death. However, the continuous overexpression of Myc can also be a liability for a tumor, which can be taken advantage of in cancer treatment.  In Paper I, we describe a new way of using the DNA methyltransferase inhibitor Decitabine, in treating Myc overexpressing tumors. We show that Decitabine treatment activates cell death by reactivating silenced tumor suppressors such as Puma, but also by inducing DNA damage. Decitabine treatment of Myc driven lymphomas is also shown to prolong disease free survival in mouse models. Myc driven transformation requires a collaborative deregulation of genes. The family of Pim kinases has been shown to collaborate with Myc in tumorigenesis. In Paper II, we show that the Pim-3 kinase protein is highly expressed in many Myc overexpressing lymphomas from Myc transgenic mice as well as human Burkitt Lymphoma samples. The Pim-3 locus is shown to interact with the Myc protein and be a direct target for Myc activated transcription. Additionally, we demonstrate that the Pim kinase inhibitor, Pimi, targeting the Pim kinase family (Pim-1, Pim-2 and Pim-3), induce a cell death that is mediated by, but not dependent on caspase activity. The Pimi induced cell death was potentiated when combined with RNAi knockdown of the casein kinase II (CK2) protein.  In paper III, we describe the development of a somatic mouse model for lymphomagenesis, utilizing the RCAS-tva technology. We show that primary B cells from these mice are transducible and transformed when infected with a combination of RCAS- HA tagged Myc, KRasV12D and human Bcl-XL virus. In conclusion, we show that the labile milieu created by the deregulated expression of Myc facilitates new approaches in treatment of Myc overexpressing tumors. Also, our new tva mouse model show promise in modeling lymphomagenesis.

Cancer

Myc

Decitabine

Pim kinase

RCAS-tva

Neurobiology

Neurobiologi

USING A TRANSGENIC ZEBRAFISH MODEL TO IDENTIFY DOWNSTREAM THERAPEUTIC TARGETS IN HIGH-RISK, NUP98-HOXA9-INDUCED MYELOID DISEASE

Deveau, Adam

25 July 2013

Acute myeloid leukemia (AML) is a genetic disease whereby sequential genetic aberrations alter essential white blood cell development leading to differentiation arrest and hyperproliferation. Pertinent animal models serve as essential intermediaries between in vitro molecular studies and the use of new agents in clinical trials. We previously generated a transgenic zebrafish model expressing human NUP98-HOXA9 (NHA9), a fusion oncogene found in high-risk AML. This expression yields a pre-leukemic state in both embryos and adults. Using this model, we have identified the overexpression of dnmt1 and the Wnt/β-catenin pathway as downstream contributors to the myeloproliferative phenotype. Targeted dnmt1 morpholino knockdown and pharmacological inhibition with methyltransferase inhibitors rescues NHA9 embryos. Similarly, inhibition of β-catenin with COX inhibitors partially restores normal hematopoiesis. Interestingly, concurrent treatment with a histone deacetylase inhibitor and either a methyltransferase inhibitor or a COX inhibitor, synergistically inhibits the effects of NHA9 on embryonic hematopoiesis. Thus, we have identified potential pharmacological targets in NHA9-induced myeloid disease that may offer a highly efficient therapy with limited toxicity – addressing a major long-term goal of AML research.

acute myeloid leukemia

Decitabine

dnmt1

epigenetics

Valproic Acid

Wnt/Beta-Catenin

How Azanucleosides Affect Myeloid Cell Fate

Stein, Anna, Platzbecker, Uwe, Cross, Michael

06 December 2023

The azanucleosides decitabine and azacytidine are used widely in the treatment of myeloid neoplasia and increasingly in the context of combination therapies. Although they were long regarded as being largely interchangeable in their function as hypomethylating agents, the azanucleosides actually have different mechanisms of action; decitabine interferes primarily with the methylation of DNA and azacytidine with that of RNA. Here, we examine the role of DNA methylation in the lineage commitment of stem cells during normal hematopoiesis and consider how mutations in epigenetic regulators such as DNMT3A and TET2 can lead to clonal expansion and subsequent neoplastic progression. We also consider why the efficacy of azanucleoside treatment is not limited to neoplasias carrying mutations in epigenetic regulators. Finally, we summarise recent data describing a role for azacytidine-sensitive RNA methylation in lineage commitment and in the cellular response to stress. By summarising and interpreting evidence for azanucleoside involvement in a range of cellular processes, our review is intended to illustrate the need to consider multiple modes of action in the design and stratification of future combination therapies.

info:eu-repo/classification/ddc/571.6

ddc:571.6

How Azanucleosides Affect Myeloid Cell Fate

Stein, Anna, Platzbecker, Uwe, Cross, Michael

27 February 2024

The azanucleosides decitabine and azacytidine are used widely in the treatment of myeloid neoplasia and increasingly in the context of combination therapies. Although they were long regarded as being largely interchangeable in their function as hypomethylating agents, the azanucleosides actually have different mechanisms of action; decitabine interferes primarily with the methylation of DNA and azacytidine with that of RNA. Here, we examine the role of DNA methylation in the lineage commitment of stem cells during normal hematopoiesis and consider how mutations in epigenetic regulators such as DNMT3A and TET2 can lead to clonal expansion and subsequent neoplastic progression. We also consider why the efficacy of azanucleoside treatment is not limited to neoplasias carrying mutations in epigenetic regulators. Finally, we summarise recent data describing a role for azacytidine-sensitive RNA methylation in lineage commitment and in the cellular response to stress. By summarising and interpreting evidence for azanucleoside involvement in a range of cellular processes, our review is intended to illustrate the need to consider multiple modes of action in the design and stratification of future combination therapies.

info:eu-repo/classification/ddc/610

ddc:610

Clinical Outcomes of 217 Patients with Acute Erythroleukemia According to Treatment Type and Line: A Retrospective Multinational Study

Almeida, Antonio M., Prebet, Thomas, Itzykson, Raphael, Ramos, Fernando, Al-Ali, Haifa, Shammo, Jamile, Pinto, Ricardo, Maurillo, Luca, Wetzel, Jaime, Musto, Pellegrino, van de Loosdrecht, Arjan A., Joao Costa, Maria, Esteves, Susana, Burgstaller, Sonja, Stauder, Reinhard, Autzinger, Eva M., Lang, Alois, Krippl, Peter, Geissler, Dietmar, Falantes, Jose Francisco, Pedro, Carmen, Bargay, Joan, Deben, Guillermo, Garrido, Ana, Bonand, Santiago, Diez-Campelo, Maria, Thepot, Sylvain, Ades, Lionel, Sperr, Wolfgang R., Valent, Peter, Fenaux, Pierre, Sekeres, Mikkael A., Greil, Richard, Pleyer, Lisa

25 January 2024

Acute erythroleukemia (AEL) is a rare disease typically associated with a poor prognosis. Themedian survival ranges between 3–9months frominitial diagnosis. Hypomethylating agents (HMAs) have been shown to prolong survival in patients with myelodysplastic syndromes (MDS) and AML, but there is limited data of their efficacy in AEL. We collected data from 210 AEL patients treated at 28 international sites. Overall survival (OS) and PFS were estimated using the Kaplan-Meier method and the log-rank test was used for subgroup comparisons. Survival between treatment groups was compared using the Cox proportional hazards regression model. Eighty-eight patients were treated with HMAs, 44 front line, and 122 with intensive chemotherapy (ICT). ICT led to a higher overall response rate (complete or partial) compared to first-line HMA (72% vs. 46.2%, respectively; p 0.001), but similar progression-free survival (8.0 vs. 9.4 months; p = 0.342). Overall survival was similar for ICT vs. HMAs (10.5 vs. 13.7months; p = 0.564), but patients with high-risk cytogenetics treated with HMA first-line lived longer (7.5 for ICT vs. 13.3 months; p = 0.039). Our results support the therapeutic value of HMA in AEL.

info:eu-repo/classification/ddc/610

ddc:610

Targeted Delivery of MicroRNAs by Nanoparticles: A Novel Therapeutic Strategy in Acute Myeloid Leukemia

Huang, Xiaomeng

23 December 2014

No description available.

Cellular Biology

Biomedical Engineering

Molecular Biology

DEVELOPMENT OF LIQUID CHROMATOGRAPHY-MASS SPECTROMETRIC ASSAYS AND SAMPLE PREPARATION METHODS FOR THE BIOLOGICAL SAMPLE ANALYSIS

CHILAKALA, SUJATHA

January 2017

No description available.

Chemistry

DNA digestion

Protein digestion

Peptide extraction

Oxygen-labelled phosphate analysis

Decitabine incorporation

DNA hypomethylation