2014
DOI: 10.1002/pros.22873
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ERG and CHD1 heterogeneity in prostate cancer: Use of confocal microscopy in assessment of microscopic foci

Abstract: Background Biomarkers predicting tumor response are important to emerging targeted therapeutics. Complimentary methods to assess and understand genetic changes and heterogeneity within only few cancer cells in tissue will be a valuable addition for assessment of tumors such as prostate cancer that often have insufficient tumor for next generation sequencing in a single biopsy core. Methods Using confocal microscopy to identify cell-to-cell relationships in situ, we studied the most common gene rearrangement … Show more

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Cited by 12 publications
(12 citation statements)
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“…Similarly for ERG , a chromosomal translocation will result in fusion of TMPRSS2 and ERG . Because these two genes are located on the same arm of chromosome 21, a deletion of the region between TMPRSS2 (21q22.2) and ERG (21q22.3) can also result in fusion [50]. Previous studies suggest a role for chromodomain helicase DNA-binding protein 1 (CHD1) in the formation of the rearrangement.…”
Section: Aberrant Expression Of Erg Promotes Tumorigenesismentioning
confidence: 99%
See 1 more Smart Citation
“…Similarly for ERG , a chromosomal translocation will result in fusion of TMPRSS2 and ERG . Because these two genes are located on the same arm of chromosome 21, a deletion of the region between TMPRSS2 (21q22.2) and ERG (21q22.3) can also result in fusion [50]. Previous studies suggest a role for chromodomain helicase DNA-binding protein 1 (CHD1) in the formation of the rearrangement.…”
Section: Aberrant Expression Of Erg Promotes Tumorigenesismentioning
confidence: 99%
“…CHD1 binds to H3K4-trimethylated histones and remodels chromatin with high levels of this transcriptionally active histone mark. In prostate cancer, CHD1 is often deleted or mutated, and, intriguingly, the CHD1 loss is only detected in ERG-negative prostate cancers [50,51]. Mechanistic studies suggest that chromatin remodeling mediated by CHD1 allows the activation of androgen receptor target genes such as TMPRSS2 , and that consistently open chromatin at these loci increases the likelihood of chromosomal breaks and induces rearrangements that could produce aberrant gene fusions [51].…”
Section: Aberrant Expression Of Erg Promotes Tumorigenesismentioning
confidence: 99%
“…Although there are many published examples, an assessment of tumor heterogeneity that we performed in over 50 patients with prostate cancer found genomic differences in ERG and CHD1 genes by fluorescence in situ hybridization (FISH) and confocal microscopy, suggesting significant heterogeneity even within a single tumor focus (24). As a potential clinical example supporting the hypothesis that more multi-targeted approaches to therapy can improve outcomes, a phase III trial was designed through the Eastern Cooperative Oncology Group (including one of the authors-RSD) to evaluate the combination of up-front docetaxel chemotherapy combined with androgen ablation compared with standard "single-target" androgen ablation in patients with advanced prostate cancer (25).…”
Section: One Example Of a Basket Trial Is The National Cancer Institumentioning
confidence: 98%
“…But the most striking evidence for CHD1 inactivation is in prostate cancer, where it is deleted or mutated (Grasso et al 2012; Huang et al 2012; Liu et al 2012; Burkhardt et al 2013; Martin et al 2013; Blattner et al 2014; Gao et al 2014; Scott et al 2014; Tereshchenko et al 2014; Attard et al 2015; Fisher et al 2015; Sowalsky et al 2015). Indeed, homozygous deletion of CHD1 is the second most common genetic event in prostate cancer after PTEN deletion (Liu et al 2012).…”
Section: Subfamily I: Chd1 Chd2mentioning
confidence: 99%
“…Chromosome rearrangements that cause overexpression of ETS family members, most commonly translocations between the androgen-regulated gene TMPRSS2 and the ERG gene, are frequent in some types of prostate cancer (Clark and Cooper 2009). CHD1 lesions occur in ETS fusion-negative prostate cancer (Grasso et al 2012; Martin et al 2013; Tereshchenko et al 2014), indicating that the CHD1 status defines a unique prostate cancer subtype (Attard et al 2015; Fisher et al 2015). Whereas CHD1 mutation and ETS fusions are mutually exclusive, CHD1 inactivation co-occurs with speckle type PTB/POZ protein (SPOP) mutations (Blattner et al 2014) and MAP3K7 deletion (Rodrigues et al 2015), suggesting that these lesions cooperate with CHD1 loss to drive tumorigenesis in the prostate.…”
Section: Subfamily I: Chd1 Chd2mentioning
confidence: 99%