Mirsana Ebrahimkutty scite author profile

Significance Cellular signaling pathways respond to a wide range of stimuli. How signaling circuits are activated without an instructive stimulus and what this is good for are less clear. Combining theoretical and experimental approaches, we show that curvature-sensing proteins stabilize stochastic membrane deformations to nucleate a self-organizing actin-regulatory signaling circuit. In neurons, these signaling hubs control the initiation of exploratory filopodia that sample the cell vicinity for appropriate synaptic partners. The extent and diversity of proteins capable of forming self-organizing circuits at stochastically deformed membranes indicates a general signaling mechanism.

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Receptor‐Free Signaling at Curved Cellular Membranes

Ebrahimkutty

Galic

2019

BioEssays

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Plasma membranes are subject to continuous deformations. Strikingly, some of these transient membrane undulations yield membrane-associated signaling hubs that differ in composition and function, depending on membrane geometry and the availability of co-factors. Here, recent advancements on this ubiquitous type of receptor-independent signaling are reviewed, with a special focus on emerging concepts and technical challenges associated with studying these elusive signaling sites.

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Force-induced changes of α-catenin conformation stabilize vascular junctions independently of vinculin

Duong

Brückner

Schmitt

et al. 2021

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Cadherin-mediated cell adhesion requires anchoring via the β-catenin-α-catenin complex to the actin cytoskeleton, yet, α-catenin binds F-actin only weakly. A covalent fusion of VE-cadherin to α-catenin enhances actin anchorage in endothelial cells and strongly stabilizes endothelial junctions in vivo, blocking inflammatory responses. Here, we have analyzed the underlying mechanism. We found that VE-cadherin-α-catenin constitutively recruits the actin adaptor vinculin. However, removal of the vinculin binding region of α-catenin did not impair the ability of VE-cadherin-α-catenin to enhance junction integrity. Searching for an alternative explanation for the junction stabilizing mechanism, we found that an antibody-defined epitope, normally buried in a short α1-helix of the actin binding domain (ABD) of α-catenin, is openly displayed in junctional VE-cadherin-α-catenin chimera. This epitope, we found to become exposed in normal α-catenin upon triggering thrombin-induced tension across the VE-cadherin complex. These results suggest, that the VE-cadherin-α-catenin chimera stabilizes endothelial junctions due to conformational changes in the ABD of α-catenin, which support constitutive strong binding to actin.

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A multiplexed phospholipid membrane platform for curvature sensitive protein screening

et al. 2021

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ArhGEF37 assists dynamin 2 during clathrin-mediated endocytosis

Viplav

Saha

Huertas

et al. 2019

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Clathrin-mediated endocytosis (CME) engages over 30 proteins to secure efficient cargo and membrane uptake. While the function of most core CME components is well established, auxiliary mechanisms crucial for fine-tuning and adaptation remain largely elusive. In this study, we identify ArhGEF37, a currently uncharacterized protein, as a constituent of CME. Structure prediction together with quantitative cellular and biochemical studies present a unique BAR domain and PI(4,5)P 2 -dependent protein–membrane interactions. Functional characterization yields accumulation of ArhGEF37 at dynamin 2-rich late endocytic sites and increased endocytosis rates in the presence of ArhGEF37. Together, these results introduce ArhGEF37 as a regulatory protein involved in endocytosis.

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