Project description:This SuperSeries is composed of the following subset Series: GSE24697: Breast tumors from CHEK2 1100delC mutation carriers: genomic landscape and clinical implications (GEX) GSE24698: Breast tumors from CHEK2 1100delC mutation carriers: genomic landscape and clinical implications (CGH) Refer to individual Series
Project description:Introduction: CHEK2 is a moderate penetrance breast cancer risk gene, whose truncating mutation 1100delC increases the risk about two fold. We pursued to investigate gene copy number aberrations and gene expression profiles that are typical for breast tumors of CHEK2 1100delC mutation carriers. Materials and methods: A total of 126 breast tumor tissue specimens including 32 samples from patients carrying CHEK2 1100delC were studied in array comparative genomic hybridization (aCGH) and gene expression experiments (GEX). After dimensionality reduction with CGHregions R package, CHEK2 1100delC associated regions in the aCGH data were detected by Wilcoxon rank sum test. Linear model was fitted to GEX data with R package limma. Genes whose expression levels were associated with CHEK2 1100delC mutation were detected by Bayesian method. Results: We discovered four lost and three gained CHEK2 1100delC related loci. These include losses of 1p13.3-31.3, 8p21.1-2, 8p23.1-2 and 17p12-13.1 as well as gains of 12q13.11-3, 16p13.3 and 19p13.3. Twenty-eight genes located on these regions showed differential expression between CHEK2 1100delC and other tumors nominating them as candidates for CHEK2 1100delC associated tumor progression drivers. These included CLCA1 on 1p22 as well as CALCOCO1, SBEM and LRP1 on 12q13. Altogether 188 genes were differentially expressed between CHEK2 1100delC and other tumors. Of these, 144 had elevated and 44 lowered expression levels. Our results suggest WNT pathway as a driver of tumorigenesis in breast tumors of CHEK2 1100delC mutation carriers and a role for the olfactory receptor protein family in cancer progression. Differences in the expression of the 188 CHEK2 1100delC associated genes divided breast tumor samples from three independent datasets into two groups that differed in their relapse-free survival time. Conclusions: We have shown that copy number aberrations of certain genomic regions are associated with CHEK2 mutation 1100delC. On these regions we have identified potential drivers of CHEK2 1100delC associated tumorigenesis, whose role in cancer progression is worth investigating. Furthermore, poorer survival related to the CHEK2 1100delC gene expression signature highlights pathways that are likely to have a role in the development of metastatic disease in carriers of CHEK2 1100delC mutation. 78 samples from breast tumors: 13 tumors from CHEK2 1100delC mutation carriers, 65 other tumors
Project description:Abstract Introduction: CHEK2 is a moderate penetrance breast cancer risk gene, whose truncating mutation 1100delC increases the risk about two fold. We pursued to investigate gene copy number aberrations and gene expression profiles that are typical for breast tumors of CHEK2 1100delC mutation carriers. Materials and methods: A total of 126 breast tumor tissue specimens including 32 samples from patients carrying CHEK2 1100delC were studied in array comparative genomic hybridization (aCGH) and gene expression experiments (GEX). After dimensionality reduction with CGHregions R package, CHEK2 1100delC associated regions in the aCGH data were detected by Wilcoxon rank sum test. Linear model was fitted to GEX data with R package limma. Genes whose expression levels were associated with CHEK2 1100delC mutation were detected by Bayesian method. Results: We discovered four lost and three gained CHEK2 1100delC related loci. These include losses of 1p13.3-31.3, 8p21.1-2, 8p23.1-2 and 17p12-13.1 as well as gains of 12q13.11-3, 16p13.3 and 19p13.3. Twenty-eight genes located on these regions showed differential expression between CHEK2 1100delC and other tumors nominating them as candidates for CHEK2 1100delC associated tumor progression drivers. These included CLCA1 on 1p22 as well as CALCOCO1, SBEM and LRP1 on 12q13. Altogether 188 genes were differentially expressed between CHEK2 1100delC and other tumors. Of these, 144 had elevated and 44 lowered expression levels. Our results suggest WNT pathway as a driver of tumorigenesis in breast tumors of CHEK2 1100delC mutation carriers and a role for the olfactory receptor protein family in cancer progression. Differences in the expression of the 188 CHEK2 1100delC associated genes divided breast tumor samples from three independent datasets into two groups that differed in their relapse-free survival time. Conclusions: We have shown that copy number aberrations of certain genomic regions are associated with CHEK2 mutation 1100delC. On these regions we have identified potential drivers of CHEK2 1100delC associated tumorigenesis, whose role in cancer progression is worth investigating. Furthermore, poorer survival related to the CHEK2 1100delC gene expression signature highlights pathways that are likely to have a role in the development of metastatic disease in carriers of CHEK2 1100delC mutation. 79 samples from breast tumors: 22 tumors from CHEK2 1100delC mutation carriers, 57 other tumors Five files attached represent segmented values, copy number calls, gain, loss and normal copy number probabilities.
Project description:Introduction: CHEK2 is a moderate penetrance breast cancer risk gene, whose truncating mutation 1100delC increases the risk about two fold. We pursued to investigate gene copy number aberrations and gene expression profiles that are typical for breast tumors of CHEK2 1100delC mutation carriers. Materials and methods: A total of 126 breast tumor tissue specimens including 32 samples from patients carrying CHEK2 1100delC were studied in array comparative genomic hybridization (aCGH) and gene expression experiments (GEX). After dimensionality reduction with CGHregions R package, CHEK2 1100delC associated regions in the aCGH data were detected by Wilcoxon rank sum test. Linear model was fitted to GEX data with R package limma. Genes whose expression levels were associated with CHEK2 1100delC mutation were detected by Bayesian method. Results: We discovered four lost and three gained CHEK2 1100delC related loci. These include losses of 1p13.3-31.3, 8p21.1-2, 8p23.1-2 and 17p12-13.1 as well as gains of 12q13.11-3, 16p13.3 and 19p13.3. Twenty-eight genes located on these regions showed differential expression between CHEK2 1100delC and other tumors nominating them as candidates for CHEK2 1100delC associated tumor progression drivers. These included CLCA1 on 1p22 as well as CALCOCO1, SBEM and LRP1 on 12q13. Altogether 188 genes were differentially expressed between CHEK2 1100delC and other tumors. Of these, 144 had elevated and 44 lowered expression levels. Our results suggest WNT pathway as a driver of tumorigenesis in breast tumors of CHEK2 1100delC mutation carriers and a role for the olfactory receptor protein family in cancer progression. Differences in the expression of the 188 CHEK2 1100delC associated genes divided breast tumor samples from three independent datasets into two groups that differed in their relapse-free survival time. Conclusions: We have shown that copy number aberrations of certain genomic regions are associated with CHEK2 mutation 1100delC. On these regions we have identified potential drivers of CHEK2 1100delC associated tumorigenesis, whose role in cancer progression is worth investigating. Furthermore, poorer survival related to the CHEK2 1100delC gene expression signature highlights pathways that are likely to have a role in the development of metastatic disease in carriers of CHEK2 1100delC mutation.
Project description:Introduction: CHEK2 is a moderate penetrance breast cancer risk gene, whose truncating mutation 1100delC increases the risk about two fold. We pursued to investigate gene copy number aberrations and gene expression profiles that are typical for breast tumors of CHEK2 1100delC mutation carriers. Materials and methods: A total of 126 breast tumor tissue specimens including 32 samples from patients carrying CHEK2 1100delC were studied in array comparative genomic hybridization (aCGH) and gene expression experiments (GEX). After dimensionality reduction with CGHregions R package, CHEK2 1100delC associated regions in the aCGH data were detected by Wilcoxon rank sum test. Linear model was fitted to GEX data with R package limma. Genes whose expression levels were associated with CHEK2 1100delC mutation were detected by Bayesian method. Results: We discovered four lost and three gained CHEK2 1100delC related loci. These include losses of 1p13.3-31.3, 8p21.1-2, 8p23.1-2 and 17p12-13.1 as well as gains of 12q13.11-3, 16p13.3 and 19p13.3. Twenty-eight genes located on these regions showed differential expression between CHEK2 1100delC and other tumors nominating them as candidates for CHEK2 1100delC associated tumor progression drivers. These included CLCA1 on 1p22 as well as CALCOCO1, SBEM and LRP1 on 12q13. Altogether 188 genes were differentially expressed between CHEK2 1100delC and other tumors. Of these, 144 had elevated and 44 lowered expression levels. Our results suggest WNT pathway as a driver of tumorigenesis in breast tumors of CHEK2 1100delC mutation carriers and a role for the olfactory receptor protein family in cancer progression. Differences in the expression of the 188 CHEK2 1100delC associated genes divided breast tumor samples from three independent datasets into two groups that differed in their relapse-free survival time. Conclusions: We have shown that copy number aberrations of certain genomic regions are associated with CHEK2 mutation 1100delC. On these regions we have identified potential drivers of CHEK2 1100delC associated tumorigenesis, whose role in cancer progression is worth investigating. Furthermore, poorer survival related to the CHEK2 1100delC gene expression signature highlights pathways that are likely to have a role in the development of metastatic disease in carriers of CHEK2 1100delC mutation.
Project description:CHEK2 1100delC is a moderate-risk cancer susceptibility allele that confers a high breast cancer risk in a polygenic setting. Gene expression profiling of CHEK2 1100delC breast cancers may reveal clues to the nature of the polygenic CHEK2 model and its genes involved. Here, we report global gene expression profiles of a cohort of 155 familial breast cancers, including 26 CHEK2 1100delC mutant tumors. A 40-gene CHEK2 signature was defined that significantly associated with CHEK2 1100delC breast cancers. The identification of a CHEK2 gene signature implies an unexpected biological homogeneity among the CHEK2 1100delC breast cancers. In addition, all 26 CHEK2 1100delC tumors classified as luminal intrinsic subtype breast cancers, with 8 luminal A and 18 luminal B tumors. This biological make-up of CHEK2 1100delC breast cancers suggests that a relatively limited number of additional susceptibility alleles are involved in the polygenic CHEK2 model. Identification of these as-yet-unknown susceptibility alleles should be aided by clues from the 40-gene CHEK2 signature.
Project description:Genomic profile of 47 tumors from hereditary breast cancer cases by Array CGH, 7 of which were BRCA mutation carriers (4 in BRCA2 and 3 in BRCA1), previously analyzed for BRCA1 expression by immunohistochemistry. Our goal was to identify specific alterations for BRCA1 not expressing tumors
Project description:We describe the gene expression profiles and enhancer landscape of normal myoepithelial cells and perturbations of these in BRCA1 and BRCA2 mutation carriers and in DCIS. We identified a myoepithelial transcription regulatory network orchestrated by p63 and TCF7 and defined the genomic targets of these transcription factors by ChIP-seq. While the majority of myoepithelial cells co-express p63 and TCF7 in normal breast of healthy women, the frequency of these cells is significantly lower in BRCA1 mutation carriers and in DCIS. Downregulation of p63 in MCF10DCIS cells leads to loss of myoepithelial cells and invasive tumors, whereas overexpression of TCF7 enhances tumor growth. Our findings suggest that loss of normal myoepithelial cell function facilitates in situ to invasive carcinoma transition and it may also enhance tumor initiation in BRCA mutation carriers.