Background: Mammary gland morphogenesis involves ductal elongation, branching, and budding. All of these processes are mediated by stroma- epithelium interactions. Biomechanical factors, such as matrix stiffness, have been established as important factors in these interactions. For example, epithelial cells fail to form normal acinar structures in vitro in 3D gels that exceed the stiffness of a normal mammary gland. Additionally, heterogeneity in the spatial distribution of acini and ducts within individual collagen gels suggests that local organization of the matrix may guide morphogenesis. Here, we quantified the effects of both bulk material stiffness and local collagen fiber arrangement on epithelial morphogenesis. Results: The formatio...
The behavior of cancer cells is strongly influenced by the properties of extracellular microenvironm...
SummaryEpithelial organs are built through the movement of groups of interconnected cells. We observ...
The structure and function of each individual mammary epithelial cell (MEC) is largely controlled by...
<div><p>Background</p><p>Mammary gland morphogenesis involves ductal elongation, branching, and budd...
International audienceMammary gland morphogenesis involves ductal elongation, branching, and budding...
In characterizing the interface between the mammary epithelium and the microenvironment, it is neces...
Breast epithelia exist in a constant state of interaction with their surrounding environment. Morpho...
SummaryFor decades, the work of cell and developmental biologists has demonstrated the striking abil...
The human mammary gland in vivo is made up of branching epithelial ducts embedded in a supporting st...
Breast cancer development is associated with increasing tissue stiffness over years. To more accurat...
Tumors are stiffer than normal tissue, but whether this biophysical alteration actively contributes ...
The treelike structures of many organs, including the mammary gland, are generated by branching morp...
Cell-matrix and cell-cell mechanosensing are important in many cellular processes, particularly for ...
Cells and multicellular structures can mechanically align and concentrate fibers in their ECM enviro...
The relationship between cells and their extracellular matrix (ECM) environment is crucial in guidin...
The behavior of cancer cells is strongly influenced by the properties of extracellular microenvironm...
SummaryEpithelial organs are built through the movement of groups of interconnected cells. We observ...
The structure and function of each individual mammary epithelial cell (MEC) is largely controlled by...
<div><p>Background</p><p>Mammary gland morphogenesis involves ductal elongation, branching, and budd...
International audienceMammary gland morphogenesis involves ductal elongation, branching, and budding...
In characterizing the interface between the mammary epithelium and the microenvironment, it is neces...
Breast epithelia exist in a constant state of interaction with their surrounding environment. Morpho...
SummaryFor decades, the work of cell and developmental biologists has demonstrated the striking abil...
The human mammary gland in vivo is made up of branching epithelial ducts embedded in a supporting st...
Breast cancer development is associated with increasing tissue stiffness over years. To more accurat...
Tumors are stiffer than normal tissue, but whether this biophysical alteration actively contributes ...
The treelike structures of many organs, including the mammary gland, are generated by branching morp...
Cell-matrix and cell-cell mechanosensing are important in many cellular processes, particularly for ...
Cells and multicellular structures can mechanically align and concentrate fibers in their ECM enviro...
The relationship between cells and their extracellular matrix (ECM) environment is crucial in guidin...
The behavior of cancer cells is strongly influenced by the properties of extracellular microenvironm...
SummaryEpithelial organs are built through the movement of groups of interconnected cells. We observ...
The structure and function of each individual mammary epithelial cell (MEC) is largely controlled by...