Project description:Highly purified subpopulations of primitive bipotent and committed luminal progenitor cells as well as mature luminal and myoepithelial cells from normal human mammary tissue were isolated and compared their transcriptomes which were obtained using PCR-Long-SAGE technology. Keywords: mammary progenitors, stem cells, Notch signaling, gene expression Four SAGE libraries were constructed on RNA samples extracted from highly purified subpopulations of primitive bipotent and committed luminal progenitor cells as well as mature luminal and myoepithelial cells isolate from a normal human mammary tissue.

Project description:Gene expression profiles of normal human mammary epithelial cell subsets enriched for luminal or myoepithelial characteristics on the basis of EpCAM and CD49f expression. Transcription profiles were compared between luminal- and myoepithelial-enriched human MEC subsets following 3D culture from 4 individuals. Gene expression profiles of normal human mammary epithelial cell subsets enriched for mature, luminal progenitor or bipotent progenitor-enriched characteristics on the bais of CD49f, MUC1, CD10, CD133 and Thy1 expression Transcription profiles were compared between unsorted, mature, luminal progenitor-enriched and bipotent progenitor-enriched human MEC subsets following 3D culture from 2 individuals. Four replicates of luminal-enriched human MECs and 3 replicates of myoepithelial-enriched MECs Transcription profiles of two replicates of unsorted, mature, luminal progenitor-enriched and bipotent progenitor-enriched human MEC subsets were analysed following 3D culture

Project description:The aim of this project is to examine age-dependent changes in the proteomes and phosphoproteomes of normal human mammary luminal epithelial and myoepithelial cells.

Project description:Gene expression profiles of normal human mammary epithelial cell subsets enriched for luminal or myoepithelial characteristics on the basis of EpCAM and CD49f expression. Transcription profiles were compared between luminal- and myoepithelial-enriched human MEC subsets following 3D culture from 4 individuals. Gene expression profiles of normal human mammary epithelial cell subsets enriched for mature, luminal progenitor or bipotent progenitor-enriched characteristics on the bais of CD49f, MUC1, CD10, CD133 and Thy1 expression Transcription profiles were compared between unsorted, mature, luminal progenitor-enriched and bipotent progenitor-enriched human MEC subsets following 3D culture from 2 individuals.

Project description:There is increasing evidence that breast and other cancers originate from and are maintained by a small fraction of stem/progenitor cells with self-renewal properties. Whether such cancer stem/progenitor cells originate from normal stem cells based on initiation of a de novo stem cell program, by reprogramming of a more differentiated cell type by oncogenic insults or both remains unresolved. A major hurdle in addressing these issues is lack of immortal human stem/progenitor cells that can be deliberately manipulated in vitro. We present evidence that normal and human telomerase reverse transcriptase (hTERT)-immortalized human mammary epithelial cells (hMECs) isolated and maintained in DFCI-1 medium retain a fraction with progenitor cell properties. These cells co-express basal, luminal and stem/progenitor cell markers. Clonal derivatives of progenitors co-expressing these markers fall into two distinct types: K5+/K19- (Type I) and K5+/K19+ (Type II). We show that both types of progenitor cells have self-renewal and differentiation ability. Through microarray analysis, we want to identify genes and pathways linked to human mammary epithelial stem/progenitor cell self-renewal and differentiation. Normal human mammary epithelial cells (hMECs) were isolated from Reduction Mammoplasty and immortalized by hTERT. Type I K5+/K19- and Type II K5+/K19+ cell colonies were isolated from hTERT-immortalized hMECs and cultured in MEGM medium for self-renewal and differentiation. Total RNA isolated from Type I, Type II, and differentiated Myoepithelial (Myo) cells were used on Affymetrix microarrays.

Project description:Highly purified subpopulations of primitive bipotent and committed luminal progenitor cells as well as mature luminal and myoepithelial cells from normal human mammary tissue were isolated and compared their transcriptomes obtained using the Affymetrix GeneChip Human X3P Array. Keywords: human mammary progenitors, stem cells, transcriptomes, Notch signaling, gene expression

Project description:To get molecular insight into age- and compartment-specific changes in telomere maintenance and associated properties in human mammary gland, we analyzed distinct subsets of normal human mammary epithelial cells. The cells were isolated by fluorescent activated cell sorting (FACS) directly from mammary tissue obtained from normal women undergoing reduction mammoplasties with concomitant removal of hematopoietic and endothelial cells by depletion of CD45pos and CD31pos cells. The three epithelial cell populations then isolated were: (i) CD49fhiEPCAMneg/low cells, (ii) CD49fposEPCAMpos cells and (iii) CD49fnegEPCAMpos cells. The CD49fhiEPCAM-/low cells are selectively enriched in mammary stem cells with functional mammary gland regenerating activity in suitably transplanted immunodeficient mice, bipotent progenitors that form colonies of adherent myoepithelial and luminal cells in vitro, myoepithelial-restricted progenitors that form colonies of exclusively adherent myoepithelial cells in vitro, and mature myoepithelial cells that are not clonogenic (collectively referred to as basal cells, BCs). The CD49fposEPCAMpos cells are selectively enriched in luminal progenitors (referred to as luminal progenitors, LPs); and the CD49fnegEPCAMpos cells are selectively enriched in mature luminal cells (referred to as luminal cells, LCs). Differences in gene expression in general and telomere associated genes in particular were elucidated by analyzing mammary epithelial subpopulations. Total RNA was isolated from 24 samples obtained from FACS purification of mammary epithelial subpopulations from 9 reduction mammoplasty breast tissues. Global gene expression profiling was performed by array.

Project description:Highly purified subpopulations of primitive bipotent and committed luminal progenitor cells as well as mature luminal and myoepithelial cells from normal human mammary tissue were isolated and compared their transcriptomes which were obtained using PCR-Long-SAGE technology. Keywords: mammary progenitors, stem cells, Notch signaling, gene expression

Project description:Highly purified subpopulations of primitive bipotent and committed luminal progenitor cells as well as mature luminal and myoepithelial cells from normal human mammary tissue were isolated and compared their transcriptomes obtained using the Affymetrix GeneChip Human X3P Array. Experiment Overall Design: 12 Afffymetrix array hybridizations were performed on RNA samples extracted from highly purified subpopulations of primitive bipotent and committed luminal progenitor cells as well as mature luminal and myoepithelial cells isolate from 3 different normal human mammary tissue.

Project description:To get molecular insight into age- and compartment-specific changes in telomere maintenance and associated properties in human mammary gland, we analyzed distinct subsets of normal human mammary epithelial cells. The cells were isolated by fluorescent activated cell sorting (FACS) directly from mammary tissue obtained from normal women undergoing reduction mammoplasties with concomitant removal of hematopoietic and endothelial cells by depletion of CD45pos and CD31pos cells. The three epithelial cell populations then isolated were: (i) CD49fhiEPCAMneg/low cells, (ii) CD49fposEPCAMpos cells and (iii) CD49fnegEPCAMpos cells. The CD49fhiEPCAM-/low cells are selectively enriched in mammary stem cells with functional mammary gland regenerating activity in suitably transplanted immunodeficient mice, bipotent progenitors that form colonies of adherent myoepithelial and luminal cells in vitro, myoepithelial-restricted progenitors that form colonies of exclusively adherent myoepithelial cells in vitro, and mature myoepithelial cells that are not clonogenic (collectively referred to as basal cells, BCs). The CD49fposEPCAMpos cells are selectively enriched in luminal progenitors (referred to as luminal progenitors, LPs); and the CD49fnegEPCAMpos cells are selectively enriched in mature luminal cells (referred to as luminal cells, LCs). Differences in gene expression in general and telomere associated genes in particular were elucidated by analyzing mammary epithelial subpopulations.