Project description:The mammary gland undergoes extensive remodeling between the begin- ning of pregnancy and lactation; this involves cellular processes including cell proliferation, differentiation, and apoptosis, all of which are under the control of numerous regulators. To unravel the role played by miRNA, we describe here 47 new ovine miRNA cloned from mammary gland in early pregnancy displaying strong similari- ties with those already identified in the cow, human, or mouse. A microarray study of miRNA variations in the adult ovine mammary gland during pregnancy and lactation showed that 100 miRNA are regulated according to three principal patterns of expression: a de- crease in early pregnancy, a peak at midpregnancy, or an increase throughout late pregnancy and lactation. One miRNA displaying each pattern (miR-21, miR-205, and miR-200b) was analyzed by qRT- PCR. Variations in expression were confirmed for all three miRNA. Using in situ hybridization, we detected both miR-21 and miR-200 in luminal mammary epithelial cells when expressed, whereas miR-205 was expressed in basal cells during the first half of pregnancy and then in luminal cells during the second half. We therefore conclude that miR-21 is strongly expressed in the luminal cells of the normal mammary gland during early pregnancy when extensive cell prolif- eration occurs. In addition, we show that miR-205 and miR-200 are coexpressed in luminal cells, but only during the second half of pregnancy. These two miRNA may cooperate to maintain epithelial status by repressing an EMT-like program, to achieve and preserve the secretory phenotype of mammary epithelial cells. 5 samples for sheep and 5 samples for mouse

Project description:The mammary gland undergoes extensive remodeling between the begin- ning of pregnancy and lactation; this involves cellular processes including cell proliferation, differentiation, and apoptosis, all of which are under the control of numerous regulators. To unravel the role played by miRNA, we describe here 47 new ovine miRNA cloned from mammary gland in early pregnancy displaying strong similari- ties with those already identified in the cow, human, or mouse. A microarray study of miRNA variations in the adult ovine mammary gland during pregnancy and lactation showed that 100 miRNA are regulated according to three principal patterns of expression: a de- crease in early pregnancy, a peak at midpregnancy, or an increase throughout late pregnancy and lactation. One miRNA displaying each pattern (miR-21, miR-205, and miR-200b) was analyzed by qRT- PCR. Variations in expression were confirmed for all three miRNA. Using in situ hybridization, we detected both miR-21 and miR-200 in luminal mammary epithelial cells when expressed, whereas miR-205 was expressed in basal cells during the first half of pregnancy and then in luminal cells during the second half. We therefore conclude that miR-21 is strongly expressed in the luminal cells of the normal mammary gland during early pregnancy when extensive cell prolif- eration occurs. In addition, we show that miR-205 and miR-200 are coexpressed in luminal cells, but only during the second half of pregnancy. These two miRNA may cooperate to maintain epithelial status by repressing an EMT-like program, to achieve and preserve the secretory phenotype of mammary epithelial cells.

Project description:In order to understand gene regulation of epithelial cells in the mouse mammary gland, we have generated a comprehensive epigenetic atlas from freshly sorted myoepithelial (basal), luminal progenitor (LP) and mature luminal (ML) from adult mice (9 week-old) encompassing gene expression profiling, histone and polymerase II CUT&Tag sequencing, chromatin accessibility via ATAC-seq and chromatin interactions. We further studied the basal compartment by sorting to additional cell type population: Tspan8+ (quiescent basal, QBa) and Tspan8- (active basal, ABa) cells.

Project description:In order to understand gene regulation of epithelial cells in the mouse mammary gland, we have generated a comprehensive epigenetic atlas from freshly sorted myoepithelial (basal), luminal progenitor (LP) and mature luminal (ML) from adult mice (9 week-old) encompassing gene expression profiling, histone and polymerase II CUT&Tag sequencing, chromatin accessibility via ATAC-seq and chromatin interactions. We further studied the basal compartment by sorting to additional cell type population: Tspan8+ (quiescent basal, QBa) and Tspan8- (active basal, ABa) cells.

Project description:In order to understand gene regulation of epithelial cells in the mouse mammary gland, we have generated a comprehensive epigenetic atlas from freshly sorted myoepithelial (basal), luminal progenitor (LP) and mature luminal (ML) from adult mice (9 week-old) encompassing gene expression profiling, histone and polymerase II CUT&Tag sequencing, chromatin accessibility via ATAC-seq and chromatin interactions. We further studied the basal compartment by sorting to additional cell type population: Tspan8+ (quiescent basal, QBa) and Tspan8- (active basal, ABa) cells.

Project description:In order to understand gene regulation of epithelial cells in the mouse mammary gland, we have generated a comprehensive epigenetic atlas from freshly sorted myoepithelial (basal), luminal progenitor (LP) and mature luminal (ML) from adult mice (9 week-old) encompassing gene expression profiling, histone and polymerase II CUT&Tag sequencing, chromatin accessibility via ATAC-seq and chromatin interactions. We further studied the basal compartment by sorting to additional cell type population: Tspan8+ (quiescent basal, QBa) and Tspan8- (active basal, ABa) cells.

Project description:In order to understand gene regulation of epithelial cells in the mouse mammary gland, we have generated a comprehensive epigenetic atlas from freshly sorted myoepithelial (basal), luminal progenitor (LP) and mature luminal (ML) from adult mice (9 week-old) encompassing gene expression profiling, histone and polymerase II CUT&Tag sequencing, chromatin accessibility via ATAC-seq and chromatin interactions. We further studied the basal compartment by sorting to additional cell type population: Tspan8+ (quiescent basal, QBa) and Tspan8- (active basal, ABa) cells.

Project description:In order to understand gene regulation of epithelial cells in the mouse mammary gland, we have generated a comprehensive epigenetic atlas from freshly sorted myoepithelial (basal), luminal progenitor (LP) and mature luminal (ML) from adult mice (9 week-old) encompassing gene expression profiling, histone and polymerase II CUT&Tag sequencing, chromatin accessibility via ATAC-seq and chromatin interactions. We further studied the basal compartment by sorting to additional cell type population: Tspan8+ (quiescent basal, QBa) and Tspan8- (active basal, ABa) cells.

Project description:Integrin dimers α3/β1, α6/β1 and α6/β4 are the mammary epithelial cell receptors for laminins, which are major components of the basement membrane, a specialized extracellular matrix surrounding the mammary epithelium. The roles of specific basement membrane components and their integrin receptors in the regulation of functional gland development have not been analyzed in detail. To investigate the functions of laminin-binding integrins, we obtained mutant mice with mammary luminal cell-specific deficiencies of the α3 and α6 integrin chains generated by the Cre-Lox approach. During pregnancy, mutant mice displayed low levels of luminal progenitor activity and retarded lobulo-alveolar development, whereas their mammary glands seemed to be functional at the onset of lactation. Myoepithelial cell morphology was markedly altered in mutant glands, suggesting cellular compensation mechanisms involving cytoskeleton reorganization. However, lactation was not sustained in mutant mice, and the glands underwent precocious involution. Inactivation of the p53 gene rescued the growth defects but did not restore lactogenesis in mutant mice. This study reveals an essential role for laminin-binding integrins in functional mammary gland development.

Project description:Integrin dimers α3/β1, α6/β1 and α6/β4 are the mammary epithelial cell receptors for laminins, which are major components of the basement membrane, a specialized extracellular matrix surrounding the mammary epithelium. The roles of specific basement membrane components and their integrin receptors in the regulation of functional gland development have not been analyzed in detail. To investigate the functions of laminin-binding integrins, we obtained mutant mice with mammary luminal cell-specific deficiencies of the α3 and α6 integrin chains generated by the Cre-Lox approach. During pregnancy, mutant mice displayed low levels of luminal progenitor activity and retarded lobulo-alveolar development, whereas their mammary glands seemed to be functional at the onset of lactation. Myoepithelial cell morphology was markedly altered in mutant glands, suggesting cellular compensation mechanisms involving cytoskeleton reorganization. However, lactation was not sustained in mutant mice, and the glands underwent precocious involution. Inactivation of the p53 gene rescued the growth defects but did not restore lactogenesis in mutant mice. This study reveals an essential role for laminin-binding integrins in functional mammary gland development.