Karen Donais scite author profile

Cell migration is a complex, highly regulated process that involves the continuous formation and disassembly of adhesions (adhesion turnover). Adhesion formation takes place at the leading edge of protrusions, whereas disassembly occurs both at the cell rear and at the base of protrusions. Despite the importance of these processes in migration, the mechanisms that regulate adhesion formation and disassembly remain largely unknown. Here we develop quantitative assays to measure the rate of incorporation of molecules into adhesions and the departure of these proteins from adhesions. Using these assays, we show that kinases and adaptor molecules, including focal adhesion kinase (FAK), Src, p130CAS, paxillin, extracellular signal-regulated kinase (ERK) and myosin light-chain kinase (MLCK) are critical for adhesion turnover at the cell front, a process central to migration.

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Differential Dynamics of α5 Integrin, Paxillin, and α-Actinin during Formation and Disassembly of Adhesions in Migrating Cells

Laukaitis

et al. 2001

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To investigate the mechanisms by which adhesions form and disperse in migrating cells, we expressed α5 integrin, α-actinin, and paxillin as green fluorescent protein (GFP) fusions. All localized with their endogenous counterparts and did not perturb migration when expressed at moderate levels. α5-GFP also rescued the adhesive defects in CHO B2 cells, which are α5 integrin deficient. In ruffling cells, α5-GFP and α-actinin–GFP localized prominently at the leading edge in membrane protrusions. Of the three GFP fusion proteins that we examined, paxillin was the first component to appear visibly organized in protrusive regions of the cell. When a new protrusion formed, the paxillin appeared to remodel from older to newer adhesions at the leading edge. α-Actinin subsequently entered adhesions, which translocated toward the cell center, and inhibited paxillin turnover. The new adhesions formed from small foci of α-actinin–GFP and paxillin-GFP, which grew in size. Subsequently, α5 integrin entered the adhesions to form visible complexes, which served to stabilize the adhesions. α5-GFP also resided in endocytic vesicles that emanated from the leading edge of protrusions. Integrin vesicles at the cell rear moved toward the cell body. As cells migrated, α5 vesicles also moved from a perinuclear region to the base of the lamellipodium. The α5 vesicles colocalized with transferrin receptor and FM 4-64 dye. After adhesions broke down in the rear, α5-GFP was found in fibrous structures behind the cell, whereas α-actinin–GFP and paxillin-GFP moved up the lateral edge of retracting cells as organized structures and then dissipated.

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Regulation of Cell Migration In Vitro and In Vivo

Webb

Donais

Murase

et al. 2004

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Karen Donais

FAK–Src signalling through paxillin, ERK and MLCK regulates adhesion disassembly

Differential Dynamics of α5 Integrin, Paxillin, and α-Actinin during Formation and Disassembly of Adhesions in Migrating Cells

Regulation of Cell Migration In Vitro and In Vivo

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