Direkt zum Inhalt
Merck

Phosphoinositides regulate force-independent interactions between talin, vinculin, and actin.

eLife (2020-07-14)
Charlotte F Kelley, Thomas Litschel, Stephanie Schumacher, Dirk Dedden, Petra Schwille, Naoko Mizuno
ZUSAMMENFASSUNG

Focal adhesions (FA) are large macromolecular assemblies which help transmit mechanical forces and regulatory signals between the extracellular matrix and an interacting cell. Two key proteins talin and vinculin connecting integrin to actomyosin networks in the cell. Both proteins bind to F-actin and each other, providing a foundation for network formation within FAs. However, the underlying mechanisms regulating their engagement remain unclear. Here, we report on the results of in vitro reconstitution of talin-vinculin-actin assemblies using synthetic membrane systems. We find that neither talin nor vinculin alone recruit actin filaments to the membrane. In contrast, phosphoinositide-rich membranes recruit and activate talin, and the membrane-bound talin then activates vinculin. Together, the two proteins then link actin to the membrane. Encapsulation of these components within vesicles reorganized actin into higher-order networks. Notably, these observations were made in the absence of applied force, whereby we infer that the initial assembly stage of FAs is force independent. Our findings demonstrate that the local membrane composition plays a key role in controlling the stepwise recruitment, activation, and engagement of proteins within FAs.

MATERIALIEN
Produktnummer
Marke
Produktbeschreibung

Sigma-Aldrich
Katalase aus Rinderleber, ≥20000 units/mg protein, lyophilized powder