Cancer cell migration enables metastatic spread causing most cancer deaths. Rho-family GTPases control cell migration, but being embedded in a highly interconnected feedback network, the control of their dynamical behavior during cell migration remains elusive. To address this question, we reconstructed the Rho-family GTPases signaling network involved in cell migration, and developed a Boolean network model to analyze the different states and emergent rewiring of the Rho-family GTPases signaling network at protrusions and during extracellular matrix-dependent cell migration. Extensive simulations and experimental validations revealed that the bursts of RhoA activity induced at protrusions by EGF are regulated by a negative-feedback module ...
Rho GTPases, including RhoA, Rac1 and Cdc42, are key regulators of cell migration in animals. In a r...
The binding of extracellular matrix proteins to integrins triggers rearrangements in the actin cytos...
Investigating cell migration in 3D settings has revealed that specific extracellular matrix environm...
Cell migration is critical to the development and maintenance of higher organisms, and is required f...
AbstractRho GTPases control signal transduction pathways that link cell surface receptors to a varie...
Metastasis, initially driven by cells migrating and invading through the local environment, leads to...
Cell migration is dependent on the dynamic formation and disassembly of actin filament-based structu...
Background Cell migration is essential for development and tissue repair, but it also contributes to...
AbstractThe last decades have witnessed an exponential increase in our knowledge of Rho GTPase signa...
AbstractRho GTPases contribute to multiple cellular processes that could affect cancer progression, ...
Although cell migration plays a central role in development and disease, the underlying molecular me...
Cells migrate in multiple different ways depending on their environment, which includes the extracel...
SummaryDynamic interactions between RhoA and Rac1, members of the Rho small GTPase family, play a vi...
RhoA is one of the more extensively studied members of the Rho family of small GTPase where it is mo...
Rho GTPases are versatile regulators of cell shape that act on the actin cytoskeleton. Studies using...
Rho GTPases, including RhoA, Rac1 and Cdc42, are key regulators of cell migration in animals. In a r...
The binding of extracellular matrix proteins to integrins triggers rearrangements in the actin cytos...
Investigating cell migration in 3D settings has revealed that specific extracellular matrix environm...
Cell migration is critical to the development and maintenance of higher organisms, and is required f...
AbstractRho GTPases control signal transduction pathways that link cell surface receptors to a varie...
Metastasis, initially driven by cells migrating and invading through the local environment, leads to...
Cell migration is dependent on the dynamic formation and disassembly of actin filament-based structu...
Background Cell migration is essential for development and tissue repair, but it also contributes to...
AbstractThe last decades have witnessed an exponential increase in our knowledge of Rho GTPase signa...
AbstractRho GTPases contribute to multiple cellular processes that could affect cancer progression, ...
Although cell migration plays a central role in development and disease, the underlying molecular me...
Cells migrate in multiple different ways depending on their environment, which includes the extracel...
SummaryDynamic interactions between RhoA and Rac1, members of the Rho small GTPase family, play a vi...
RhoA is one of the more extensively studied members of the Rho family of small GTPase where it is mo...
Rho GTPases are versatile regulators of cell shape that act on the actin cytoskeleton. Studies using...
Rho GTPases, including RhoA, Rac1 and Cdc42, are key regulators of cell migration in animals. In a r...
The binding of extracellular matrix proteins to integrins triggers rearrangements in the actin cytos...
Investigating cell migration in 3D settings has revealed that specific extracellular matrix environm...