Project description:In-depth clinical proteomic analysis of laser-microdissected HOT lesions of five luminal B breast cancer Ki-67 high subtype.

Project description:Breast cancers of the luminal B subtype are frequent tumors with high proliferation and poor prognosis. Epigenetic alterations have been found in breast tumors and in biological fluids. We aimed to profile the cell-free DNA (cfDNA) methylome of metastatic luminal B breast cancer (LBBC) patients using an epigenomic approach to discover potential noninvasive biomarkers. Plasma cfDNA was analyzed using the Infinium MethylationEpic array (EPIC array) in a cohort of 14 women, including metastatic LBBC patients and healthy controls.

Project description:The transcription factor GATA3 is essential for luminal cell differentiation during mammary gland development and critical for formation of the luminal subtypes of breast cancer. Ectopic expression of GATA3 promoted global alterations of the transcriptome of basal triple-negative breast cancer cells resulting in molecular and cellular changes associated with a more differentiated, luminal tumor subtype and a concomitant reduction in primary tumor growth, lung metastasis, and macrophage recruitment at the metastatic site. Importantly, we demonstrate that the inhibition of metastases by GATA3 results from the suppression of lysyl oxidase (LOX) expression, a metastasis promoting matrix protein that affects cell proliferation, cross-linking of extracellular collagen types, and establishment of the metastatic niche. There are 2 samples sent in triplicates.

Project description:The identification of mechanisms controlling breast tumor progression from less aggressive to highly metastatic disease should provide novel therapeutic targets for patients. Here we report the transcriptional corepressor, TLE3, as a critical regulator of cellular plasticity in breast cancer. TLE3 facilitates repression of genes associated with the highly aggressive basal-like breast cancer (BLBC) subtype within luminal cells. Additionally, maintenance of the luminal lineage is dependent on appropriate localization of TLE3 to its transcriptional targets which is mediated through interaction with FOXA1. Furthermore, the ability of TLE3 to repress BLBC transcription results in reduced metastatic capacity and aggressive cellular behaviors. Together our findings establish TLE3 as a critical transcriptional mediator of breast cancer aggressiveness, with TLE3 sustaining the more differentiated and less metastatic nature of luminal tumors through suppression of gene expression programs associated with BLBC.

Project description:The identification of mechanisms controlling breast tumor progression from less aggressive to highly metastatic disease should provide novel therapeutic targets for patients. Here we report the transcriptional corepressor, TLE3, as a critical regulator of cellular plasticity in breast cancer. TLE3 facilitates repression of genes associated with the highly aggressive basal-like breast cancer (BLBC) subtype within luminal cells. Additionally, maintenance of the luminal lineage is dependent on appropriate localization of TLE3 to its transcriptional targets which is mediated through interaction with FOXA1. Furthermore, the ability of TLE3 to repress BLBC transcription results in reduced metastatic capacity and aggressive cellular behaviors. Together our findings establish TLE3 as a critical transcriptional mediator of breast cancer aggressiveness, with TLE3 sustaining the more differentiated and less metastatic nature of luminal tumors through suppression of gene expression programs associated with BLBC.

Project description:The identification of mechanisms controlling breast tumor progression from less aggressive to highly metastatic disease should provide novel therapeutic targets for patients. Here we report the transcriptional corepressor, TLE3, as a critical regulator of cellular plasticity in breast cancer. TLE3 facilitates repression of genes associated with the highly aggressive basal-like breast cancer (BLBC) subtype within luminal cells. Additionally, maintenance of the luminal lineage is dependent on appropriate localization of TLE3 to its transcriptional targets which is mediated through interaction with FOXA1. Furthermore, the ability of TLE3 to repress BLBC transcription results in reduced metastatic capacity and aggressive cellular behaviors. Together our findings establish TLE3 as a critical transcriptional mediator of breast cancer aggressiveness, with TLE3 sustaining the more differentiated and less metastatic nature of luminal tumors through suppression of gene expression programs associated with BLBC.

Project description:The goal of this dataset is to compare the gene expression patterns between primary and metastatic tumors Metastatic cancer patients typically have short survival times and their successful treatment represents one of most challenging aspects of patient care. This poor prognostic behavior is likely due to many factors, including increased clonal heterogeneity, multiple drug resistance mechanisms, and the role of the tumor microenvironment. The AURORA US Metastasis Project was established to collect and molecularly characterize specimens from 55 breast cancer (BC) patients representing 51 primary cancers and 102 metastases. The 153 unique tumors were assayed using RNAseq, tumor/germline DNA exomes and low pass whole genome sequencing, and global DNA methylation microarrays. We found intrinsic molecular subtype differences between primary tumors and their matched metastases to be rare in triple negative breast cancer (TNBC)/Basal-like subtype tumors. Conversely, tumor subtype changes were relatively frequent in estrogen receptor positive (ER+) cancers where ~30% of Luminal A cases switched to Luminal B or HER2-enriched (HER2E) subtype. Clonal evolution studies identified changes in expression subtype coincident with DNA clonality shifts, especially involving HER2 amplification and/or the HER2E expression subtype. Microenvironment differences varied according to tumor subtype where ER+/Luminal metastases had lower fibroblast and endothelial cell content, while TNBC/Basal-like metastases showed a dramatic decrease in adaptive immunity. In 17% of metastatic tumors, we identified DNA methylation and/or focal DNA deletions near HLA-A that were associated with its significantly reduced expression, and with lower immune cell infiltrates. We also identified low immune cell features in brain and liver metastases when compared to other metastatic sites, even within the same patient. These findings have direct implications for the treatment of metastatic breast cancer patients with immune- and HER2-targeting therapies and suggest potential novel therapeutic avenues for the improvement of outcomes for some MBC patients.

Project description:We performed high throughput transcriptome of breast cancer and normal tissues, identifying lincRNA associated molecular subtype with powerful capacity to distinct breast cancer population and predict prognosis. We also identified subtype-specific lincRNAs that may be a useful complement to intrinsic molecular subtype classification when divergence emerges among pathologists.Paired-end transcriptome sequencing were carried out on a cohort of 33 breast tissues from 11 groups including five breast cancer subtypes including luminal A (LA), luminal B (HER2 negative)(LB, HER2-), luminal B (HER2 positive) (LB, HER2+), HER2 and tripple negative breast cancer (TNB), adjacent noncancerous breast tissue (ANT, three samples for each subtype) and the complete normal breast tissues (three samples)

Project description:The transcription factor GATA3 is essential for luminal cell differentiation during mammary gland development and critical for formation of the luminal subtypes of breast cancer. Ectopic expression of GATA3 promoted global alterations of the transcriptome of basal triple-negative breast cancer cells resulting in molecular and cellular changes associated with a more differentiated, luminal tumor subtype and a concomitant reduction in primary tumor growth, lung metastasis, and macrophage recruitment at the metastatic site. Importantly, we demonstrate that the inhibition of metastases by GATA3 results from the suppression of lysyl oxidase (LOX) expression, a metastasis promoting matrix protein that affects cell proliferation, cross-linking of extracellular collagen types, and establishment of the metastatic niche.

Project description:Purpose In breast cancer, specific aberrant methylation patterns have been associated with different BC histologic and molecular subtypes and data suggest that DNA methylation profiles may play an important role in the development and progression of distinct breast subtypes. However, the epigenome of the newly defined luminal B and luminal B-HER2 positive breast cancers has not yet been characterized. Therefore the main goal of the current study is to deciphered the aberrant DNA methylation profiles associated with these breast cancer subtypes. Experimental Design 29 luminal subtype breast cancer samples along with 8 control tissue were epigenetically interrogated using the HumanMethylation27 DNA Analysis BeadChip. Results Luminal B-HER2 + subtype displays the most aggressive phenotype and shows the highest number of aberrantly methylated CpG markers. On the other hand, the luminal B subtype harbours an heterogeneous DNA methylation profile that seems to be half way between the luminal A and luminalB-HER2+ subtypes. Conclusions The heterogeneous epigenetic and genetic profile of the luminal B subtype, might indicate that a further stratification has to be done for this specific breast cancer subtype.