Gabriele Kockelkoren scite author profile

Gabriele Kockelkoren

5Publications

44Citation Statements Received

414Citation Statements Given

How they've been cited

How they cite others

312

393

Affiliations

University of Copenhagen

Publications

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WASP integrates substrate topology and cell polarity to guide neutrophil migration

Brunetti

Kockelkoren

Raghavan

et al. 2021

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To control their movement, cells need to coordinate actin assembly with the geometric features of their substrate. Here, we uncover a role for the actin regulator WASP in the 3D migration of neutrophils. We show that WASP responds to substrate topology by enriching to sites of inward, substrate-induced membrane deformation. Superresolution imaging reveals that WASP preferentially enriches to the necks of these substrate-induced invaginations, a distribution that could support substrate pinching. WASP facilitates recruitment of the Arp2/3 complex to these sites, stimulating local actin assembly that couples substrate features with the cytoskeleton. Surprisingly, WASP only enriches to membrane deformations in the front half of the cell, within a permissive zone set by WASP’s front-biased regulator Cdc42. While WASP KO cells exhibit relatively normal migration on flat substrates, they are defective at topology-directed migration. Our data suggest that WASP integrates substrate topology with cell polarity by selectively polymerizing actin around substrate-induced membrane deformations in the front half of the cell.

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Molecular mechanism of GPCR spatial organization at the plasma membrane

et al. 2023

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WASP integrates substrate topology and cell polarity to guide neutrophil migration

Brunetti

Kockelkoren

Raghavan

et al. 2021

Preprint

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To control their shape and movement, cells leverage nucleation promoting factors (NPFs) to regulate when and where they polymerize actin. Here we investigate the role of the immune-specific NPF WASP during neutrophil migration. Endogenously-tagged WASP localizes to substrate-induced plasma membrane deformations. Super-resolution imaging of live cells reveals that WASP preferentially enriches to the necks of these substrate-induced membrane invaginations, a distribution that could support substrate pinching. Unlike other curvature-sensitive proteins, WASP only enriches to membrane deformations at the cell front, where it controls Arp2/3 complex recruitment and actin polymerization. Despite relatively normal migration on flat substrates, WASP depletion causes defects in topology sensing and directed migration on textured substrates. WASP therefore both responds to and reinforces cell polarity during migration. Surprisingly, front-biased WASP puncta continue to form in the absence of Cdc42. We propose that WASP integrates substrate topology with cell polarity for 3D guidance by selectively polymerizing actin around substrate-induced membrane deformations at the leading edge. A misregulation of WASP-mediated contact guidance could provide insight into the immune disorder Wiskott-Aldrich syndrome.

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Molecular mechanism of formation of GPCR domains at the cell surface

Kockelkoren¹,

Lauritsen²,

Shuttle³

et al. 2022

Biophysical Journal

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A Molecular Mechanism for Membrane Geometry-Specific Protein Localization

Kockelkoren

2019

Biophysical Journal

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In this work we are presenting the coupling of the Dry Martini CG model for lipids with the lattice Boltzmann molecular dynamics technique that allows to include hydrodynamic interactions in implicit solvent CG simulations. We present the coupling of this force field with the OPEP CG model for proteins. These advances allow us to investigate systems and biophysical processes where the fluid environment and motion is key: for instance from vesicular and membrane fusion, shear effects, fluid transport across the membrane to protein aggregation in a membrane environment. We will showcase not only the basic coupling but also simulations of challenging systems, like a nanoreactor where enzymes, substrates and crowding proteins are confined by a lipid vesicle.

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