Add to ORKGCell migration is dependent on adhesion dynamics and actin cytoskeleton remodeling at the leading edge. These events may be physically constrained by the plasma membrane. Here, we show that the mechanical signal produced by an increase in plasma membrane tension triggers the positioning of new rows of adhesions at the leading edge. During protrusion, as membrane tension increases, velocity slows, and the lamellipodium buckles upward in a myosin II-independent manner. The buckling occurs between the front of the lamellipodium, where nascent adhesions are positioned in rows, and the base of the lamellipodium, where a vinculin-dependent clutch couples actin to previously positioned adhesions. As membrane tension decreases, protrusion resumes a...
Cell motility consists of repeating cycles of protrusion of a leading edge in the direction of migra...
SummaryCa2+ signals regulate polarization, speed, and turning of migrating cells [1–4]. However, the...
AbstractProtrusion, the first step of cell migration, is driven by actin polymerization coupled to a...
Cell migration is dependent on adhesion dynamics and actin cytoskeleton remodeling at the leading ed...
SummaryCell motility proceeds by cycles of edge protrusion, adhesion, and retraction. Whether these ...
Actin filaments polymerizing against membranes power endocytosis, vesicular traffic, and cell motili...
SummaryBackgroundThe spatiotemporal regulation of adhesion to the extracellular matrix is important ...
Directional cell migration is driven by the conversion of oscillating edge motion into lasting perio...
The ability of cells to extend cell membranes is central to numerous biological processes, including...
Cell motility relies on the continuous reorganization of a dynamic actin–myosin–adhesion network at ...
In living cells, adhesion structures have the astonishing ability to grow and strengthen under force...
AbstractMost eukaryotic cells can crawl over surfaces. In general, this motility requires three dist...
AbstractCellular lamellipodia bind to the matrix and probe its rigidity through forces generated by ...
The molecular clutch (MC) model proposes that actomyosin-driven force transmission permits integrin-...
International audienceActin filaments generate mechanical forces that drive membrane movements durin...
Cell motility consists of repeating cycles of protrusion of a leading edge in the direction of migra...
SummaryCa2+ signals regulate polarization, speed, and turning of migrating cells [1–4]. However, the...
AbstractProtrusion, the first step of cell migration, is driven by actin polymerization coupled to a...
Cell migration is dependent on adhesion dynamics and actin cytoskeleton remodeling at the leading ed...
SummaryCell motility proceeds by cycles of edge protrusion, adhesion, and retraction. Whether these ...
Actin filaments polymerizing against membranes power endocytosis, vesicular traffic, and cell motili...
SummaryBackgroundThe spatiotemporal regulation of adhesion to the extracellular matrix is important ...
Directional cell migration is driven by the conversion of oscillating edge motion into lasting perio...
The ability of cells to extend cell membranes is central to numerous biological processes, including...
Cell motility relies on the continuous reorganization of a dynamic actin–myosin–adhesion network at ...
In living cells, adhesion structures have the astonishing ability to grow and strengthen under force...
AbstractMost eukaryotic cells can crawl over surfaces. In general, this motility requires three dist...
AbstractCellular lamellipodia bind to the matrix and probe its rigidity through forces generated by ...
The molecular clutch (MC) model proposes that actomyosin-driven force transmission permits integrin-...
International audienceActin filaments generate mechanical forces that drive membrane movements durin...
Cell motility consists of repeating cycles of protrusion of a leading edge in the direction of migra...
SummaryCa2+ signals regulate polarization, speed, and turning of migrating cells [1–4]. However, the...
AbstractProtrusion, the first step of cell migration, is driven by actin polymerization coupled to a...