Mesenchymal cell migration in interstitial tissue is a cyclic process of coordinated leading edge protrusion, adhesive interaction with extracellular matrix (ECM) ligands, cell contraction followed by retraction and movement of the cell rear. During migration through 3D tissue, the force fields generated by moving cells are non-isotropic and polarized between leading and trailing edge, however the integration of protrusion formation, cell-substrate adhesion, traction force generation and cell translocation in time and space remain unclear. Using high-resolution 3D confocal reflectance and fluorescence microscopy in GFP/actin expressing melanoma cells, we here employ time-resolved subcellular coregistration of cell morphology, interaction an...
Leading edge protrusion of migrating cells involves tightly coordinated changes in the plasma membra...
<p>Any cellular response leading to morphological changes is highly tuned to balance the force gener...
Actin protrusion dynamics plays an important role in the regulation of three-dimensional (3D) cell m...
Mesenchymal cell migration in interstitial tissue is a cyclic process of coordinated leading edge pr...
Mobile cells discriminate and adapt to mechanosensory input from extracellular matrix (ECM) topograp...
Actin-based cell motility and force generation are central to immune response, tissue development, a...
Contains fulltext : 171545.pdf (publisher's version ) (Closed access)The multistep...
International audienceCancer cell migration is a widely studied topic but has been very often limite...
The multistep process of cell migration requires cells to dynamically couple to extracellular interf...
International audienceDirectional cell motility relies on the ability of single cells to establish a...
Fibrillar collagen is the most abundant extracellular matrix (ECM) constituent which maintains the s...
Die Anpassung des Aktinzytoskeletts an extrazelluläre Gewebsstrukturen ist Voraussetzung für die Int...
Directed cell migration is involved in a broad spectrum of biological phenomena, ranging from the me...
ABSTRACT Mesenchymal cell migration through a three-dimensional (3D) matrix typically involves major...
Numerous F-actin containing structures are involved in regulating protrusion of membrane at the lead...
Leading edge protrusion of migrating cells involves tightly coordinated changes in the plasma membra...
<p>Any cellular response leading to morphological changes is highly tuned to balance the force gener...
Actin protrusion dynamics plays an important role in the regulation of three-dimensional (3D) cell m...
Mesenchymal cell migration in interstitial tissue is a cyclic process of coordinated leading edge pr...
Mobile cells discriminate and adapt to mechanosensory input from extracellular matrix (ECM) topograp...
Actin-based cell motility and force generation are central to immune response, tissue development, a...
Contains fulltext : 171545.pdf (publisher's version ) (Closed access)The multistep...
International audienceCancer cell migration is a widely studied topic but has been very often limite...
The multistep process of cell migration requires cells to dynamically couple to extracellular interf...
International audienceDirectional cell motility relies on the ability of single cells to establish a...
Fibrillar collagen is the most abundant extracellular matrix (ECM) constituent which maintains the s...
Die Anpassung des Aktinzytoskeletts an extrazelluläre Gewebsstrukturen ist Voraussetzung für die Int...
Directed cell migration is involved in a broad spectrum of biological phenomena, ranging from the me...
ABSTRACT Mesenchymal cell migration through a three-dimensional (3D) matrix typically involves major...
Numerous F-actin containing structures are involved in regulating protrusion of membrane at the lead...
Leading edge protrusion of migrating cells involves tightly coordinated changes in the plasma membra...
<p>Any cellular response leading to morphological changes is highly tuned to balance the force gener...
Actin protrusion dynamics plays an important role in the regulation of three-dimensional (3D) cell m...