Afficher la couverture 'Modulation of formin processivity by profilin and mechanical tension | Cao, Luyan' en grand format
/5

0 avis

Modulation of formin processivity by profilin and mechanical tension

Archive ouverte

Cao, Luyan | Kerleau, Mikael | Suzuki, Emiko, L | Wioland, Hugo | Jouet, Sandy | Guichard, Berengere | Lenz, Martin | Romet-Lemonne, Guillaume | Jegou, Antoine

Edité par CCSD ; eLife Sciences Publication -

International audience. Formins are major regulators of actin networks. They enhance actin filament dynamics by remaining processively bound to filament barbed ends. How biochemical and mechanical factors affect formin processivity are open questions. Monitoring individual actin filaments in a microfluidic flow, we report that formins mDia1 and mDia2 dissociate faster under higher ionic strength and when actin concentration is increased. Profilin, known to increase the elongation rate of formin-associated filaments, surprisingly decreases the formin dissociation rate, by bringing formin FH1 domains in transient contact with the barbed end. In contrast, piconewton tensile forces applied to actin filaments accelerate formin dissociation by orders of magnitude, largely overcoming profilin-mediated stabilization. We developed a model of formin conformations showing that our data indicates the existence of two different dissociation pathways, with force favoring one over the other. How cells limit formin dissociation under tension is now a key question for future studies.

Suggestions

Du même auteur

The advantages of microfluidics to study actin biochemistry and biomechanics

Archive ouverte | Wioland, Hugo | CCSD

International audience. The regulated assembly of actin filaments is essential in nearly all cell types. Studying actin assembly dynamics can pose many technical challenges. A number of these challenges can be overc...

Cortactin stabilizes actin branches by bridging activated Arp2/3 to its nucleated actin filament

Archive ouverte | Liu, Tianyang | CCSD

Regulation of the assembly and turnover of branched actin filament networks nucleated by the Arp2/3 complex is essential during many cellular processes including cell migration and membrane trafficking. Cortactin plays a key role ...

Cortactin stabilizes actin branches by bridging activated Arp2/3 to its nucleated actin filament

Archive ouverte | Liu, Tianyang | CCSD

International audience. Abstract Regulation of the assembly and turnover of branched actin filament networks nucleated by the Arp2/3 complex is essential during many cellular processes, including cell migration and ...

Chargement des enrichissements...