Opposing Roles of Dnmt1 in Early- and Late-Stage Murine Prostate Cancer

Kinney, Shannon R. Morey; Moser, Michael T.; Pascual, Marien; Greally, John M.; Foster, Barbara A.; Karpf, Adam R.

doi:10.1128/mcb.00235-10

Cited by 36 publications

(20 citation statements)

References 54 publications

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“…However, this concept is paradoxical to the global reduction of methylation frequently observed in cancer [2]. Moreover, tumor suppressor functions for DNMTs have been demonstrated [72,73]. Because DNMTs are cell cycle regulated [61], and cancers, especially at later stages, often have an elevated proliferation index, we hypothesized that it is more appropriate to normalize DNMT expression to cell proliferation, in order to accurately gauge the functional capacity of maintenance methylation.…”

Section: Discussionmentioning

confidence: 99%

Global DNA Hypomethylation in Epithelial Ovarian Cancer: Passive Demethylation and Association with Genomic Instability

Zhang

Klinkebiel

Barger

et al. 2020

Cancers

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A hallmark of human cancer is global DNA hypomethylation (GDHO), but the mechanisms accounting for this defect and its pathological consequences have not been investigated in human epithelial ovarian cancer (EOC). In EOC, GDHO was associated with advanced disease and reduced overall and disease-free survival. GDHO (+) EOC tumors displayed a proliferative gene expression signature, including FOXM1 and CCNE1 overexpression. Furthermore, DNA hypomethylation in these tumors was enriched within genomic blocks (hypomethylated blocks) that overlapped late-replicating regions, lamina-associated domains, PRC2 binding sites, and the H3K27me3 histone mark. Increased proliferation coupled with hypomethylated blocks at late-replicating regions suggests a passive hypomethylation mechanism. This hypothesis was further supported by our observation that cytosine DNA methyltransferases (DNMTs) and UHRF1 showed significantly reduced expression in GDHO (+) EOC after normalization to canonical proliferation markers, including MKI67. Finally, GDHO (+) EOC tumors had elevated chromosomal instability (CIN), and copy number alterations (CNA) were enriched at the DNA hypomethylated blocks. Together, these findings implicate a passive DNA demethylation mechanism in ovarian cancer that is associated with genomic instability and poor prognosis.

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Section: Discussionmentioning

confidence: 99%

Global DNA Hypomethylation in Epithelial Ovarian Cancer: Passive Demethylation and Association with Genomic Instability

Zhang

Klinkebiel

Barger

et al. 2020

Cancers

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“…DNMT1 level can predict disease recurrence after prostatectomy [167,168,175,180,181,182,183]. Changes in the level of DNMT1 with disease progression have also been reported in studies using the TRAMP mouse model [184]. Using this model, it was also demonstrated that inhibition of DNMT1 by 5-azacitidine treatment prevented tumorigenesis [185], underscoring the relevance of DNMT1 and hypermethylation to the establishment and progression of PCa.…”

Section: The Role Of Androgen Signaling On Methyltransferases and mentioning

confidence: 90%

One-Carbon Metabolism in Prostate Cancer: The Role of Androgen Signaling

Corbin

Ruiz-Echevarría

2016

IJMS

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Cancer cell metabolism differs significantly from the metabolism of non-transformed cells. This altered metabolic reprogramming mediates changes in the uptake and use of nutrients that permit high rates of proliferation, growth, and survival. The androgen receptor (AR) plays an essential role in the establishment and progression of prostate cancer (PCa), and in the metabolic adaptation that takes place during this progression. In its role as a transcription factor, the AR directly affects the expression of several effectors and regulators of essential catabolic and biosynthetic pathways. Indirectly, as a modulator of the one-carbon metabolism, the AR can affect epigenetic processes, DNA metabolism, and redox balance, all of which are important factors in tumorigenesis. In this review, we focus on the role of AR-signaling on one-carbon metabolism in tumorigenesis. Clinical implications of one-carbon metabolism and AR-targeted therapies for PCa are discussed in this context.

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“…Indeed, it is highly unlikely to expect that development and progression of diverse types of tumors are all associated with DNA hypomethylation. Furthermore, there is growing evidence that DNA hypomethylation suppresses development of certain tumor types, especially intestinal, gastric, and prostate carcinomas [39-41]. …”

Section: Epigenetic Alterations In Cancer Cellsmentioning

confidence: 99%

Environmental Toxicants, Epigenetics, and Cancer

Pogribny

Rusyn

2012

Advances in Experimental Medicine and Biology

105

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Tumorigenesis, a complex and multifactorial progressive process of transformation of normal cells into malignant cells, is characterized by the accumulation of multiple cancer-specific heritable phenotypes triggered by the mutational and/or non-mutational (i.e., epigenetic) events. Accumulating evidence suggests that environmental and occupational exposures to natural substances, as well as man-made chemical and physical agents, play a causative role in human cancer. In a broad sense, carcinogenesis may be induced through either genotoxic or non-genotoxic mechanisms; however, both genotoxic and non-genotoxic carcinogens also cause prominent epigenetic changes. This review presents current evidence of the epigenetic alterations induced by various chemical carcinogens, including arsenic, 1,3-butadine, and pharmaceutical and biological agents, and highlights the potential for epigenetic changes to serve as markers for carcinogen exposure and cancer risk assessment.

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Opposing Roles of Dnmt1 in Early- and Late-Stage Murine Prostate Cancer

Cited by 36 publications

References 54 publications

Global DNA Hypomethylation in Epithelial Ovarian Cancer: Passive Demethylation and Association with Genomic Instability

Global DNA Hypomethylation in Epithelial Ovarian Cancer: Passive Demethylation and Association with Genomic Instability

One-Carbon Metabolism in Prostate Cancer: The Role of Androgen Signaling

Environmental Toxicants, Epigenetics, and Cancer

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