DNA Methylation and Chromatin Remodeling: The Blueprint of Cancer Epigenetics

Bhattacharjee, Dipanjan; Shenoy, Smita; Bairy, Laxminarayana Kurady

doi:10.1155/2016/6072357

Cited by 24 publications

(15 citation statements)

References 117 publications

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“…Epigenetic modifications, chromatin, and direct DNA modifications are key genomic regulatory processes required for proper development [1], gene imprinting [2–4], X chromosome inactivation [5–7], gene expression regulation [8], and genomic organization [9–11]. Disruptions to the epigenome can alter basic cellular regulation leading to a wide range of dysfunctional molecular programs [10–12].…”

Section: Introductionmentioning

confidence: 99%

Early-life DNA methylation profiles are indicative of age-related transcriptome changes

Hadad

Masser

Blanco-Berdugo

et al. 2019

Epigenetics & Chromatin

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Background Alterations to cellular and molecular programs with brain aging result in cognitive impairment and susceptibility to neurodegenerative disease. Changes in DNA methylation patterns, an epigenetic modification required for various CNS functions are observed with brain aging and can be prevented by anti-aging interventions, but the relationship of altered methylation to gene expression is poorly understood. Results Paired analysis of the hippocampal methylome and transcriptome with aging of male and female mice demonstrates that age-related differences in methylation and gene expression are anti-correlated within gene bodies and enhancers. Altered promoter methylation with aging was found to be generally un-related to altered gene expression. A more striking relationship was found between methylation levels at young age and differential gene expression with aging. Highly methylated gene bodies and promoters in early life were associated with age-related increases in gene expression even in the absence of significant methylation changes with aging. As well, low levels of methylation in early life were correlated to decreased expression with aging. This relationship was also observed in genes altered in two mouse Alzheimer’s models. Conclusion DNA methylation patterns established in youth, in combination with other epigenetic marks, were able to accurately predict changes in transcript trajectories with aging. These findings are consistent with the developmental origins of disease hypothesis and indicate that epigenetic variability in early life may explain differences in aging trajectories and age-related disease.

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Section: Introductionmentioning

confidence: 99%

Early-life DNA methylation profiles are indicative of age-related transcriptome changes

Hadad

Masser

Blanco-Berdugo

et al. 2019

Epigenetics & Chromatin

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“…DNA methylation can play multiple roles in regulating gene transcription by altering protein binding occupancy [64], regulation of alternative splicing [65][66][67][68][69], and through interactions with histone marks [70,11]. To examine DNA methylation patterns between genes differentially expressed during aging and those that remain unaltered, correlations between fold mRNA change with aging and gene body methylation levels (mean methylation from TSS to TES) ( Figure 3A,B) in early and late life were performed.…”

Section: Age-related Gene Expression Changes Are Associated With Younmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

“…Epigenetic modifications, chromatin and direct DNA modifications, are key genomic regulatory processes required for proper development [1], gene imprinting [2][3][4], X chromosome inactivation [5][6][7], gene expression regulation [8], and genomic organization [9][10][11]. Disruptions to the epigenome can alter basic cellular regulation leading to a wide range of dysfunctional molecular programs [10][11][12]. Impaired epigenetic control with aging has been proposed as an etiological factor common to age-related diseases ranging from diabetes to neurodegenerative diseases such as Alzheimer's disease [13][14][15][16][17][18].…”

Section: Introductionmentioning

confidence: 99%

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Early life DNA methylation profiles are indicative of age-related transcriptome changes

Hadad¹,

Masser²,

Blanco-Berdugo³

et al. 2019

Preprint

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Alterations to cellular and molecular programs with brain aging result in cognitive impairment and susceptibility to neurodegenerative disease. Changes in DNA methylation patterns, an epigenetic modification required for various CNS functions, are observed with aging and can be prevented by anti-aging interventions, but the functional outcomes of altered methylation on transcriptome profiles are poorly understood with brain aging.Integrated analysis of the hippocampal methylome and transcriptome with aging of male and female mice demonstrates that age-related differences in methylation and gene expression are anti-correlated within gene bodies and enhancers, but not promoters. Methylation levels at young age of genes altered with aging are positively associated with age-related expression changes even in the absence of significant changes to methylation with aging, a finding also observed in mouse Alzheimer's models. DNA methylation patterns established in youth, in combination with other epigenetic marks, are able to predict changes in transcript trajectories with aging. These findings are consistent with the developmental origins of disease hypothesis and indicate that epigenetic variability in early life may explain differences in age-related disease.

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“…The promoter regions of all three RHOBTB genes have a high GC content with CpG islands. The hypermethylation of CpG islands results in the downregulation or complete abrogation of gene expression and is a frequent epigenetic alteration in primary tumors [ 34 ]. RHOBTB2 promoter methylation, normally a rare event, has been found increased and correlated to reduced or abolished expression of the gene in breast [ 25 , 35 , 36 ] and bladder [ 28 ] cancers.…”

Section: Rhobtbs As Tumor Suppressorsmentioning

confidence: 99%

Atypical Rho GTPases of the RhoBTB Subfamily: Roles in Vesicle Trafficking and Tumorigenesis

Rivero

2016

Cells

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RhoBTB proteins constitute a subfamily of atypical Rho GTPases represented in mammals by RhoBTB1, RhoBTB2, and RhoBTB3. Their characteristic feature is a carboxyl terminal extension that harbors two BTB domains capable of assembling cullin 3-dependent ubiquitin ligase complexes. The expression of all three RHOBTB genes has been found reduced or abolished in a variety of tumors. They are considered tumor suppressor genes and recent studies have strengthened their implication in tumorigenesis through regulation of the cell cycle and apoptosis. RhoBTB3 is also involved in retrograde transport from endosomes to the Golgi apparatus. One aspect that makes RhoBTB proteins atypical among the Rho GTPases is their proposed mechanism of activation. No specific guanine nucleotide exchange factors or GTPase activating proteins are known. Instead, RhoBTB might be activated through interaction with other proteins that relieve their auto-inhibited conformation and inactivated through auto-ubiquitination and destruction in the proteasome. In this review we discuss our current knowledge on the molecular mechanisms of action of RhoBTB proteins and the implications for tumorigenesis and other pathologic conditions.

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DNA Methylation and Chromatin Remodeling: The Blueprint of Cancer Epigenetics

Cited by 24 publications

References 117 publications

Early-life DNA methylation profiles are indicative of age-related transcriptome changes

Early-life DNA methylation profiles are indicative of age-related transcriptome changes

Early life DNA methylation profiles are indicative of age-related transcriptome changes

Atypical Rho GTPases of the RhoBTB Subfamily: Roles in Vesicle Trafficking and Tumorigenesis

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