Add to ORKGCell proliferation and contact inhibition play a major role in maintaining epithelial cell homeostasis. A hallmark of epithelial cells is strong cell-cell junctions. These junctions include E-Cadherin, a type of adherens junction that is critical for both barrier function and contact inhibition. Prior experiments by other groups have shown that adherens junctions are subject to mechanical tension. Externally applied forces (e.g. stretch) results in changes in E-Cadherin forces that coordinate proliferation. My current work tests the hypothesis that E-Cadherin forces mediate the spatial regulation of cell proliferation even in the absence of externally applied forces
Increased intercellular tension is associated with enhanced cell proliferation and tissue growth. He...
Adherens junctions support strong cell-cell adhesions to create tissues. The core of the adherens ju...
Cell adhesion is important in the regulation of many cellular behaviors including cell growth, diffe...
Numerous three-dimensional model systems have emerged for emulating the biochemical and physiologica...
Homeostasis of adherens junctions is achieved through complex regulatory mechanisms. The junctions a...
Thesis (M.A.) PLEASE NOTE: Boston University Libraries did not receive an Authorization To Manage fo...
Regulation of cadherin adhesion in tissue organization and malignant transformation.Cadherins are ce...
Mechanical linkage between cell-cell and cell-extracellular matrix (ECM) adhesions regulates cell sh...
In the natural and technological world, multi-agent systems strongly depend on how the in-teractions...
Cell-cell contacts are major determinants of tissue organization in both health and disease. Adhesiv...
E-cadherin function leads to the density-dependent contact inhibition of cell growth. Because cadher...
Epithelia form essential barriers that protect tissues from the external environment, yet at the sam...
E-cadherin is a trans-membrane tumor suppressor responsible for epithelial cell adhesion. E-cadherin...
Cells are linked together dynamically by adhesion molecules, such as the classical cadherins. E-cadh...
Generation of a barrier in multi-layered epithelia like the epidermis requires restricted positionin...
Increased intercellular tension is associated with enhanced cell proliferation and tissue growth. He...
Adherens junctions support strong cell-cell adhesions to create tissues. The core of the adherens ju...
Cell adhesion is important in the regulation of many cellular behaviors including cell growth, diffe...
Numerous three-dimensional model systems have emerged for emulating the biochemical and physiologica...
Homeostasis of adherens junctions is achieved through complex regulatory mechanisms. The junctions a...
Thesis (M.A.) PLEASE NOTE: Boston University Libraries did not receive an Authorization To Manage fo...
Regulation of cadherin adhesion in tissue organization and malignant transformation.Cadherins are ce...
Mechanical linkage between cell-cell and cell-extracellular matrix (ECM) adhesions regulates cell sh...
In the natural and technological world, multi-agent systems strongly depend on how the in-teractions...
Cell-cell contacts are major determinants of tissue organization in both health and disease. Adhesiv...
E-cadherin function leads to the density-dependent contact inhibition of cell growth. Because cadher...
Epithelia form essential barriers that protect tissues from the external environment, yet at the sam...
E-cadherin is a trans-membrane tumor suppressor responsible for epithelial cell adhesion. E-cadherin...
Cells are linked together dynamically by adhesion molecules, such as the classical cadherins. E-cadh...
Generation of a barrier in multi-layered epithelia like the epidermis requires restricted positionin...
Increased intercellular tension is associated with enhanced cell proliferation and tissue growth. He...
Adherens junctions support strong cell-cell adhesions to create tissues. The core of the adherens ju...
Cell adhesion is important in the regulation of many cellular behaviors including cell growth, diffe...