Agglomerative Epigenetic Aberrations Are a Common Event in Human Breast Cancer

Novák, Petr; Jensen, Taylor J.; Oshiro, Marc M.; Watts, George S.; Kim, Christina J.; Futscher, Bernard W.

doi:10.1158/0008-5472.can-08-1419

Cited by 141 publications

(174 citation statements)

References 44 publications

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“…2B); reintroduction of GnT-V cDNA into KO tumor cells significantly attenuated the expression of Pcdh␤ genes in these cells (Fig. 2C), supporting the hypothesis that differential expression of Pcdh␤ genes in GnT-V KO tumors was due to altered expression levels of GnT-V. A recent study has shown that Pcdh gene clusters, including the Pcdh␤ family, are expressed at lower levels in human breast cancer tissues than in normal tissues, and these lower expression levels were linked to human breast tumorigenesis (26). To confirm and extend the observation concerning the differential expression of the Pcdh␤ gene cluster in mouse mammary tumors after deletion of GnT-V, Pcdh␤ gene expression was measured in the human breast cancer cell line MDA-MB231 after knockdown of GnT-V by siRNA.…”

Section: Microarray Analysis Of Her-2-induced Mammary Tumors-supporting

confidence: 77%

“…As shown in Fig. 2D, three members of the human PCDH␤ cluster (PCDH␤3, PCDH␤6, and PCDH␤13), which were shown to be significantly down-regulated in human breast cancer tissues (26), were dramatically enhanced in MDA-MB231 cells with GnT-V knockdown, further confirming the ability of GnT-V expression levels to regulate the expression of the Pcdh␤ cluster during breast tumorigenesis.…”

Section: Microarray Analysis Of Her-2-induced Mammary Tumors-mentioning

confidence: 54%

“…Protocadherins are predominantly expressed in the nervous system and appear to play an important role in regulating neuron development (21). However, epigenetic aberrations of protocadherin gene clusters caused by hypermethylation have been identified recently in some human tumors, including breast cancer (25)(26)(27)(28), indicating that Pcdh genes may serve as tumor "suppressors" that can inhibit tumor development.…”

mentioning

confidence: 99%

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Transcriptional Regulation of the Protocadherin β Cluster during Her-2 Protein-induced Mammary Tumorigenesis Results from Altered N-Glycan Branching

Guo

Nairn

Rosa

et al. 2012

Journal of Biological Chemistry

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Background: Her-2-induced mammary tumor onset is significantly delayed in GnT-V knock-out mice. Results: The gene expression of the Pcdh␤ cluster is up-regulated in her-2-induced tumors with GnT-V deletion. Conclusion: Up-regulation of the Pcdh␤ cluster is one of the mechanisms for the reduced her-2-mediated tumorigenesis resulting from GnT-V deletion. Significance: Our findings shed new light on the molecular mechanisms of the effects of GnT-V on mammary tumorigenesis.

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Section: Microarray Analysis Of Her-2-induced Mammary Tumors-supporting

confidence: 77%

Section: Microarray Analysis Of Her-2-induced Mammary Tumors-mentioning

confidence: 54%

mentioning

confidence: 99%

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Transcriptional Regulation of the Protocadherin β Cluster during Her-2 Protein-induced Mammary Tumorigenesis Results from Altered N-Glycan Branching

Guo

Nairn

Rosa

et al. 2012

Journal of Biological Chemistry

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“…There are now numerous methods available for determining CpG methylation status (for review, see Laird 2010), including methods focused at the level of CpG islands (Ponzielli et al 2008;Kaminsky et al 2009), individual promoters (Weber et al 2005(Weber et al , 2007Novak et al 2008), and, increasingly, genome-''scale'' (Meissner et al 2008;Gu et al 2010) and genome-wide methods, either at high (Lister et al 2009) or low resolution (Serre et al 2009;Ruike et al 2010). These later methods can be broadly classified into the following designations: reduced representation approaches that are based on methylation-sensitive (e.g., HELP) (Oda et al 2009) or specific (e.g., CHARM) (Irizarry et al 2008) restriction digestion (for review, see Jeddeloh et al 2008), affinity-based methods such as methyl-DNA immunoprecipitation (MeDIP) (Weber et al 2005(Weber et al , 2007Novak et al 2008) and methyl-CpG binding domain-based capture (MBDCap) (Rauch et al 2006(Rauch et al , 2008Serre et al 2009), and the more direct bisulphite treatment-based methods (Lister et al 2009); coupling of reduced representation and bisulphite treatment has now been demonstrated (Meissner et al 2008;Gu et al 2010), and other combinations are also possible.…”

mentioning

confidence: 99%

“…These later methods can be broadly classified into the following designations: reduced representation approaches that are based on methylation-sensitive (e.g., HELP) (Oda et al 2009) or specific (e.g., CHARM) (Irizarry et al 2008) restriction digestion (for review, see Jeddeloh et al 2008), affinity-based methods such as methyl-DNA immunoprecipitation (MeDIP) (Weber et al 2005(Weber et al , 2007Novak et al 2008) and methyl-CpG binding domain-based capture (MBDCap) (Rauch et al 2006(Rauch et al , 2008Serre et al 2009), and the more direct bisulphite treatment-based methods (Lister et al 2009); coupling of reduced representation and bisulphite treatment has now been demonstrated (Meissner et al 2008;Gu et al 2010), and other combinations are also possible. However, there are still many challenges involved in interpreting data from DNA methylation-based assays, due to complex effects, both technical and biological that are introduced at various steps in the procedure, in addition to implicit biases from the methods employed.…”

mentioning

confidence: 99%

Evaluation of affinity-based genome-wide DNA methylation data: Effects of CpG density, amplification bias, and copy number variation

Robinson

Stirzaker²,

Statham³

et al. 2010

Genome Res.

113

103

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DNA methylation is an essential epigenetic modification that plays a key role associated with the regulation of gene expression during differentiation, but in disease states such as cancer, the DNA methylation landscape is often deregulated. There are now numerous technologies available to interrogate the DNA methylation status of CpG sites in a targeted or genome-wide fashion, but each method, due to intrinsic biases, potentially interrogates different fractions of the genome. In this study, we compare the affinity-purification of methylated DNA between two popular genome-wide techniques, methylated DNA immunoprecipitation (MeDIP) and methyl-CpG binding domain-based capture (MBDCap), and show that each technique operates in a different domain of the CpG density landscape. We explored the effect of whole-genome amplification and illustrate that it can reduce sensitivity for detecting DNA methylation in GC-rich regions of the genome. By using MBDCap, we compare and contrast microarray-and sequencing-based readouts and highlight the impact that copy number variation (CNV) can make in differential comparisons of methylomes. These studies reveal that the analysis of DNA methylation data and genome coverage is highly dependent on the method employed, and consideration must be made in light of the GC content, the extent of DNA amplification, and the copy number.

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Global methylation silencing of clustered proto‐cadherin genes in cervical cancer: serving as diagnostic markers comparable to HPV

et al. 2014

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Epigenetic remodeling of cell adhesion genes is a common phenomenon in cancer invasion. This study aims to investigate global methylation of cell adhesion genes in cervical carcinogenesis and to apply them in early detection of cancer from cervical scraping. Genome-wide methylation array was performed on an investigation cohort, including 16 cervical intraepithelial neoplasia 3 (CIN3) and 20 cervical cancers (CA) versus 12 each of normal, inflammation and CIN1 as controls. Twelve members of clustered proto-cadherin (PCDH) genes were collectively methylated and silenced, which were validated in cancer cells of the cervix, endometrium, liver, head and neck, breast, and lung. In an independent cohort including 107 controls, 66 CIN1, 85 CIN2/3, and 38 CA, methylated PCDHA4 and PCDHA13 were detected in 2.8%, 24.2%, 52.9%, and 84.2% (P < 10−25), and 2.8%, 24.2%, 50.6%, and 94.7% (P < 10−29), respectively. In diagnosis of CIN2 or more severe lesion of the cervix, a combination test of methylated PCDHA4 or PCDHA13 from cervical scraping had a sensitivity, specificity, positive predictive value, and negative predictive value of 74.8%, 80.3%, 73%, and 81.8%, respectively. Testing of this combination from cervical scraping is equally sensitive but more specific than human papillomavirus (HPV) test in diagnosis of CIN2 or more severe lesions. The study disclosed a collective methylation of PCDH genes in cancer of cervix and other sites. At least two of them can be promising diagnostic markers for cervical cancer noninferior to HPV.

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Agglomerative Epigenetic Aberrations Are a Common Event in Human Breast Cancer

Cited by 141 publications

References 44 publications

Transcriptional Regulation of the Protocadherin β Cluster during Her-2 Protein-induced Mammary Tumorigenesis Results from Altered N-Glycan Branching

Transcriptional Regulation of the Protocadherin β Cluster during Her-2 Protein-induced Mammary Tumorigenesis Results from Altered N-Glycan Branching

Evaluation of affinity-based genome-wide DNA methylation data: Effects of CpG density, amplification bias, and copy number variation

Global methylation silencing of clustered proto‐cadherin genes in cervical cancer: serving as diagnostic markers comparable to HPV

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