Clinical Epigenetics 2015-01-01

Coordinated epigenetic remodelling of transcriptional networks occurs during early breast carcinogenesis.

Warwick J Locke, Elena Zotenko, Clare Stirzaker, Mark D Robinson, Rebecca A Hinshelwood, Andrew Stone, Roger R Reddel, Lily I Huschtscha, Susan J Clark

文献索引:Clin. Epigenetics. 7 , 52, (2015)

全文:HTML全文

摘要

Dysregulation of the epigenome is a common event in malignancy; however, deciphering the earliest cancer-associated epigenetic events remains a challenge. Cancer epigenome studies to date have primarily utilised cancer cell lines or clinical samples, where it is difficult to identify the initial epigenetic lesions from those that occur over time. Here, we analysed the epigenome of human mammary epithelial cells (HMEC) and a matched variant cell population (vHMEC) that have spontaneously escaped senescence and undergone partial carcinogenic transformation. Using this model of basal-like breast carcinogenesis, we provide striking new insights into the very first epigenetic changes that occur during the initial stages of malignancy.The first phase of malignancy is defined by coordinated changes in the epigenome. At the chromatin level, this is embodied in long-range epigenetic deregulation, which involves the concomitant but atypical acquisition or loss of active and repressive histone modifications across large regional blocks. Changes in DNA methylation also occurs in a highly coordinated manner. We identified differentially methylated regions (DMRs) in the very earliest passages of vHMECs. Notably, we find that differential methylation targets loci regulated by key transcription factors including p53, AHR and E2F family members suggesting that epigenetic deregulation of transcription factor binding is a key event in breast carcinogenesis. Interestingly, DMRs identified in vHMEC are extensively methylated in breast cancer, with hypermethylation frequently encroaching into neighbouring regions. A subset of vHMEC DMRs exhibited a strong basal-like cancer specific hypermethylation.Here, we generated epigenome-wide maps of the earliest phase of breast malignancy and show long-range epigenetic deregulation and coordinated DNA hypermethylation targets loci regulated by key transcription factors. These findings support a model where induction of breast cancer occurs through epigenetic disruption of transcription factor binding leading to deregulation of cancer-associated transcriptional networks. With their stability and very early occurrence, vHMECs hypermethylated loci could serve as excellent biomarkers for the initial detection of basal breast cancer.


相关化合物

  • 氢氧化钠
  • 3-乙基-2,4-戊烷二...
  • 对苯二酚
  • 7-(对甲氧基苄氨基)...

相关文献:

Aptamer-based polyvalent ligands for regulated cell attachment on the hydrogel surface.

2015-04-13

[Biomacromolecules 16(4) , 1382-9, (2015)]

Osmoregulatory bicarbonate secretion exploits H(+)-sensitive haemoglobins to autoregulate intestinal O2 delivery in euryhaline teleosts.

2014-10-01

[J. Comp. Physiol. B, Biochem. Syst. Environ. Physiol. 184(7) , 865-76, (2014)]

Polymerization of affinity ligands on a surface for enhanced ligand display and cell binding.

2014-12-08

[Biomacromolecules 15(12) , 4561-9, (2014)]

Continuous syntheses of Pd@Pt and Cu@Ag core-shell nanoparticles using microwave-assisted core particle formation coupled with galvanic metal displacement.

2014-08-07

[Nanoscale 6(15) , 8720-5, (2014)]

Effect of (2)H and (18)O water isotopes in kinesin-1 gliding assay.

2014-01-01

[PeerJ 2 , e284, (2014)]

更多文献...