DNA methylation patterns in luminal breast cancers differ from non‐luminal subtypes and can identify relapse risk independent of other clinical variables

Kamalakaran, Sitharthan; Varadan, Vinay; Russnes, Hege Elisabeth Giercksky; Levy, Dan; Kendall, Jude; Janevski, Angel; Riggs, Michael; Banerjee, Nilanjana; Synnestvedt, Marit; Schlichting, Ellen; Kåresen, Rolf; Kabekkodu, Shama Prasada; Rotti, Harish; Rao, R. Bharat; Rao, Laxmi; Tang, Man-Hung Eric; Satyamoorthy, Kapaettu; Lucito, Robert; Wigler, Michael; Dimitrova, Nevenka; Naume, Bjørn; Børresen-Dale, Anne Lise; Hicks, James

doi:10.1016/j.molonc.2010.11.002

Cited by 119 publications

(129 citation statements)

References 37 publications

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“…Recent studies using array-based methylation analysis have confirmed that the molecular subtypes of breast cancer have subtype-specific methylation profiles. [18][19][20][21] Holm et al 19 demonstrated differences in the methylation profiles of luminal A, luminal B, and basal-like breast cancers, with luminal B and basal-like breast cancers being most and least frequently methylated, respectively. In our study, the number of CpG island loci methylated was highest in the luminal-HER2 subtype and lowest in the basal-like subtype.…”

Section: Discussionmentioning

confidence: 99%

“…[14][15][16][17] Array-based comprehensive DNA methylation profiling has shown that breast cancer molecular subtypes have their own methylation profiles. [18][19][20][21] Moreover, these different methylation profiles were evident throughout the CpG islands of the genome, not limited to functional genes. 20 Kamalakaran et al 20 reported that the methylation patterns of differentially methylated genes in luminal A tumors were similar to those identified in CD24 þ luminal epithelial cells, and those in basal-like tumors resembled those of CD44 þ breast progenitor cells, suggesting that the methylation patterns of the breast cancer subtypes reflect the methylation patterns of their cells of origin.…”

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confidence: 99%

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Distinct patterns of promoter CpG island methylation of breast cancer subtypes are associated with stem cell phenotypes

et al. 2012

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Although DNA methylation profiles in breast cancer have been connected to breast cancer molecular subtype, there have been no studies of the association of DNA methylation with stem cell phenotype. This study was designed to evaluate the promoter CpG island methylation of 15 genes in relation to breast cancer subtype, and to investigate whether the patterns of CpG island methylation in each subtype are associated with their cancer stem cell phenotype represented by CD44 þ /CD24À and ALDH1 expression. We performed MethyLight analysis of the methylation status of 15 promoter CpG island loci involved in breast cancer progression (APC, DLEC1, GRIN2B, GSTP1, HOXA1, HOXA10, IGF2, MT1G, RARB, RASSF1A, RUNX3, SCGB3A1, SFRP1, SFRP4, and TMEFF2) and determined cancer stem cell phenotype by CD44/CD24 and ALDH1 immunohistochemistry in 36 luminal A, 33 luminal B, 30 luminal-HER2, 40 HER2 enriched, and 40 basal-like subtypes of breast cancer. The number of CpG island loci methylated differed significantly between subtypes, and was highest in the luminal-HER2 subtype and lowest in the basal-like subtype. Methylation frequencies and levels in 12 of the 15 genes differed significantly between subtypes, and the basal-like subtype had significantly lower methylation frequencies and levels in nine of the genes than the other subtypes. CD44 þ /CD24À and ALDH1 þ putative stem cell populations were most enriched in the basal-like subtype. Methylation of promoter CpG islands was significantly lower in CD44 þ /CD24-cell ( þ ) tumors than in CD44 þ /CD24-cell (À) tumors, even within the basallike subtype. ALDH1 ( þ ) tumors were also less methylated than ALDH1 (À) tumors. Our findings showed that promoter CpG island methylation was different in relation to breast cancer subtype and stem cell phenotype of tumor, suggesting that breast cancers have distinct patterns of CpG island methylation according to molecular subtypes and these are associated with different stem cell phenotypes of the tumor.

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Section: Discussionmentioning

confidence: 99%

mentioning

confidence: 99%

Distinct patterns of promoter CpG island methylation of breast cancer subtypes are associated with stem cell phenotypes

et al. 2012

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“…In addition, hypomethylation of repetitive elements is associated with elevated transcription, while that of normally methylated promoter CpG islands can lead to elevated expression of tumor antigens and possible oncogenes (29). So far, a few genome-wide methylation analyses of breast cancer have been performed in different subtypes of cancer such as luminal/non-luminal (30) and ER + /ER - (15), as well as in non-specified cancer tissues (31). Most of the studies focused on specific genes such as homeobox genes (14), polycomb-binding sites (32) tumor suppressors, and oncogenes, resulting in identification of novel epigenetic markers rather than elucidating the epigenetic regulatory network involved in the carcinogenesis.…”

Section: Discussionmentioning

confidence: 99%

Differential methylation hybridization profiling identifies involvement of STAT1-mediated pathways in breast cancer

Kim

Kang

Kim³

et al. 2011

Int J Oncol

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Abstract. Many cancer-related genes are regulated by an epigenetic mechanism through modification of the methylation status of CpG sites at the promoter. This study was carried out at a genome-wide scale to mine genes in which the methylation of CpG sites is altered in breast cancer tissues. Differential methylation hybridization analysis was conducted using a chromosomal DNA mixture of ten normal and cancer tissue sets. A CpG microarray harboring 237,220 CpG sites of the whole genome was interrogated and the resulting methylation level differences, as well as the RNA expression differences, between the normal and cancer sets for selected genes were verified in breast cell lines by methylation-specific PCR and real-time PCR analyses. As a result, we identified and verified novel genes that were hypermethylated in breast cancer, such as NRN1, CA5B and RPIA. Pathway analysis of the genes with altered methylation patterns identified the involvement of a differentiation-related network of genes whose activity may be heavily regulated by STAT1 in breast tumorigenesis. Our results suggest that epigenetic dysregulation of cellular processes relevant to STAT1-dependent cellular differentiation may be intimately involved in breast carcinogenesis. These findings lend credence to the possibility of using tumor-specific alterations in methylation patterns as biomarkers in estimating prognosis and assessing treatment options for breast cancer.

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“…One of the first genome wide DNA methylation studies in breast cancer developed methylation-specific digital karyotyping (MSDK) to assess epithelial, myoepithelial, and stromal fibroblasts from normal abreast and cancer tissues [71]. Furthermore, genome wide DNA methylation studies in breast cancer identified gene families that were commonly identified as differentially methylated between non-malignant and tumour included transcription factors (FOX, KLF, PRDM, ZBTB, and ZNF) and gene families involved in cell transport of proteins or vesicles(RAB and SLC) or involvement in cell adhesion (CDH and PCDH) [71][72][73][74]. The pathways and gene families do not appear to have a strong link to hormone metabolism or signalling, it is likely that these genes are not drivers of cancer but rather are secondary events that occur as part of the tumourigenic process [75,76].…”

Section: Dna Methylation and Breast Cancermentioning

confidence: 99%

“…Genome wide DNA methylation studies have supported correlation between DNA methylation and gene expression, particularly the association between CpG islands DNA hypermethylation and gene repression [49,74,77,78]. Using familial breast cancers and BRCA1/2-mutated tumours combined DNA methylation profiles that alone predicted BRCA status, with gene expression and copy number variation (CNV) and found that genes with reduced expression were more likely to be in genomic regions with loss of heterozygosity and/or high levels of DNA methylation.…”

Section: Dna Methylation and Breast Cancermentioning

confidence: 99%

DNA Methylation

Alokail¹,

Alenad²

2015

A Concise Review of Molecular Pathology of Breast Cancer

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DNA methylation patterns in luminal breast cancers differ from non‐luminal subtypes and can identify relapse risk independent of other clinical variables

Cited by 119 publications

References 37 publications

Distinct patterns of promoter CpG island methylation of breast cancer subtypes are associated with stem cell phenotypes

Distinct patterns of promoter CpG island methylation of breast cancer subtypes are associated with stem cell phenotypes

Differential methylation hybridization profiling identifies involvement of STAT1-mediated pathways in breast cancer

DNA Methylation

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