Epigenomics of leukemia: from mechanisms to therapeutic applications

Florean, Cristina; Schnekenburger, Michaël; Grandjenette, Cindy; Dicato, Mario; Diederich, Marc

doi:10.2217/epi.11.73

Cited by 97 publications

(87 citation statements)

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“…In leukemias the role of different epigenetic enzymes has been investigated mainly for acute promyelocytic leukemia (APL) [103,104] and acute myeloid leukemia (AML) [103]. Biological players that have been studied for clinical applications include deacetylases [32,[105][106][107][108], DNA and histone methyltransferases [32,35,103,104,[109][110][111][112][113][114][115][116][117][118][119][120][121][122][123][124][125] and miRNA [104,119,126,127].…”

Section: Hematological Malignanciesmentioning

confidence: 99%

Modulation of Epigenetic Targets for Anticancer Therapy: Clinicopathological Relevance, Structural Data and Drug Discovery Perspectives

Andreoli¹,

Barbosa²,

Parenti³

et al. 2012

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Abstract:Research on cancer epigenetics has flourished in the last decade. Nevertheless growing evidence point on the importance to understand the mechanisms by which epigenetic changes regulate the genesis and progression of cancer growth. Several epigenetic targets have been discovered and are currently under validation for new anticancer therapies. Drug discovery approaches aiming to target these epigenetic enzymes with small-molecules inhibitors have produced the first pre-clinical and clinical outcomes and many other compounds are now entering the pipeline as new candidate epidrugs. The most studied targets can be ascribed to histone deacetylases and DNA methyltransferases, although several other classes of enzymes are able to operate post-translational modifications to histone tails are also likely to represent new frontiers for therapeutic interventions. By acknowledging that the field of cancer epigenetics is evolving with an impressive rate of new findings, with this review we aim to provide a current overview of pre-clinical applications of smallmolecules for cancer pathologies, combining them with the current knowledge of epigenetic targets in terms of available structural data and drug design perspectives.Keywords: Epigenetics, anticancer therapy, DNA methyltransferases, protein methyltransferases, demethylases, deacetylases, acetyltransferases, histone post-translational modifications, drug design, crystallography, small-molecule inhibitors. INTRODUCTIONThe term epigenetics currently refers to the mechanisms of temporal and spatial control of gene activity that do not depend on the DNA sequence, influencing the physiological and pathological development of an organism. The molecular mechanisms by which epigenetic changes occur are complex and cover a wide range of processes including paramutation, bookmarking, imprinting, gene silencing, carcinogenesis progression, and, most importantly, regulation of heterochromatin and histone modifications [1]. At a biochemical level, epigenetic alterations in chromatin involve methylation of DNA patterns, several forms of histone modifications and microRNA (miRNA) expression. All these processes modulate the structure of chromatin leading to the activation or silencing of gene expression [2][3][4][5][6]. More specifically, the chromatin remodeling is accomplished by two main mechanisms that concern the methylation of cytosine residues in DNA and a variety of post-translational modifications (PTMs) occurring at the N-terminal tails of histone proteins. These PTMs include acetylation, methylation, phosphorylation, ubiquitylation, sumoylation, glycosylation, ADPribosylation, carbonylation, citrullination and biotinylation [7,8]. Among all PTMs for example, histone tails can have its lysine residues acetylated, methylated or ubiquitilated; arginine can be methylated; serine and threonine residues can be phosphorylated [9][10][11][12][13][14][15][16][17]. These covalent modifications are able to cause other PTMs and the ensemble of this cross-talk is known as the his...

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Section: Hematological Malignanciesmentioning

confidence: 99%

Modulation of Epigenetic Targets for Anticancer Therapy: Clinicopathological Relevance, Structural Data and Drug Discovery Perspectives

Andreoli¹,

Barbosa²,

Parenti³

et al. 2012

CPD

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“…The latter leads to the formation of fusion proteins such as MLL-CBP, MLL-p300, MOZ-CBP, MOZ-p300 or MOZ-TIF2 involved in aberrant gene expression. For example, in a normal state, MOZ controls RUNX1 expression, which is involved in cell differentiation, whereas the fusion protein MOZ-CBP induces the repression of this protein, thus promoting carcinogenesis (Bug and Ottmann 2010;Florean et al 2011). Moreover, chromatin modifications induced by alterations in histone acetylation status of specific genes could be due to aberrant HDAC recruitment triggered by leukemia-associated fusion proteins, such as PLZF-RAR (promyelocytic leukemia zinc finger-retinoic acid receptor-a) or PML-RAR (promyelocytic leukemia-retinoic acid receptor-a) in promyelocytic leukemia.…”

Section: Epigenetic Alterations and Cancermentioning

confidence: 99%

“…The presence of retinoic acid disrupts these inhibitory complexes to the benefit of transcriptional activator complexes, which contain HAT. The fusion-proteins PLZF-RAR and PML-RAR block this dissociation and recruit other enzymes involved in chromatin structure modifications, promoting a drastic inhibition of transcription (Florean et al 2011;Minucci and Pelicci 2006). This mechanism is responsible for aberrant recruitment of HDACs to specific promoters involved in differentiation and impairs p53 functions, which play an important role in leukemogenesis.…”

Section: Epigenetic Alterations and Cancermentioning

confidence: 99%

“…In addition to histone acetylation, other histone modifications such as methylation are involved in chromatin structure and act together with DNA methylation on TSG silencing ( Fig. 2; Florean et al 2011;Hassan et al 2007;Jones et al 1998;Wade et al 1999). Altogether, these mechanisms are implicated in apoptosis resistance, differentiation arrest, cell cycle perturbations leading to aberrant proliferation associated with tumorigenesis and tumor aggressiveness, including invasiveness and metastasis.…”

Section: Epigenetic Alterations and Cancermentioning

confidence: 99%

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Histone deacetylase modulators provided by Mother Nature

et al. 2012

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Protein acetylation status results from a balance between histone acetyltransferase and histone deacetylase (HDAC) activities. Alteration of this balance leads to a disruption of cellular integrity and participates in the development of numerous diseases, including cancer. Therefore, modulation of these activities appears to be a promising approach for anticancer therapy. Histone deacetylase inhibitors (HDACi) are epigenetically active drugs that induce the hyperacetylation of lysine residues within histone and non-histone proteins, thus affecting gene expression and cellular processes such as proteinprotein interactions, protein stability, DNA binding and protein sub-cellular localization. Therefore, HDACi are promising anti-tumor agents as they may affect the cell cycle, inhibit proliferation, stimulate differentiation and induce apoptotic cell death. Over the last 30 years, numerous synthetic and natural products, including a broad range of dietary compounds, have been identified as HDACi. This review focuses on molecules from natural origins modulating HDAC activities and presenting promising anticancer activities.

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“…18 The HOX4A gene is frequently hypermethylated in CML and in lymphoid malignancies and may be associated with poor prognosis. 19 Conversely, it appears that downregulation of BIM expression is associated with reduced optimal responses to imatinib, 20 a finding that links to some extent with the negative effect of BIM deletions.…”

Section: Epigenetic Changesmentioning

confidence: 99%