NOVA-dependent regulation of cryptic NMD exons controls synaptic protein levels after seizure

SUMMARY Cells contain multiple F-actin assembly pathways including the Arp2/3 complex, formins, and Ena/VASP, which have largely been analyzed separately. They collectively generate the bulk of F-actin from a common pool of G-actin; however, the interplay/competition between these pathways remains poorly understood. Using fibroblast lines derived from an Arpc2 conditional knockout mouse, we established matched-pair cells with and without the Arp2/3 complex. Arpc2−/− cells lack lamellipodia and migrate slower than WT cells, but have F-actin levels indistinguishable from controls. Actin assembly in Arpc2−/− cells was resistant to cytochalasin-D and was highly dependent on profilin-1 and Ena/VASP, but not formins. Profilin-1 depletion in WT cells increased F-actin and Arp2/3 complex in lamellipodia. Conversely, addition of exogenous profilin-1 inhibited Arp2/3 complex actin nucleation in vitro and in vivo. These observations suggest that antagonism of the Arp2/3 complex by profilin-1 in cells maintains actin homeostasis by balancing Arp2/3 complex-dependent and independent actin assembly pathways.

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The Spatiotemporal Limits of Developmental Erk Signaling

Johnson

et al. 2017

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SUMMARY Animal development is characterized by signaling events that occur at precise locations and times within the embryo, yet determining when and where such precision is needed for proper embryogenesis has been a longstanding challenge. Here we address this question for Erk signaling, a key developmental patterning cue. We describe an optogenetic system for activating Erk with high spatiotemporal precision in vivo. Implementing this system in Drosophila, we find that embryogenesis is remarkably robust to ectopic Erk signaling, except from 1 to 4 hours post fertilization when perturbing the spatial extent of Erk pathway activation leads to dramatic disruptions of patterning and morphogenesis. Later in development, the effects of ectopic signaling are buffered, at least in part by combinatorial mechanisms. Our approach can be used to systematically probe the differential contributions of the Erk pathway and concurrent signals, leading to a more quantitative understanding of developmental signaling.

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Migrating fibroblasts reorient directionality by a metastable, PI3K-dependent mechanism

et al. 2012

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Signaling Dynamics Control Cell Fate in the Early Drosophila Embryo

2019

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Mesenchymal Chemotaxis Requires Selective Inactivation of Myosin II at the Leading Edge via a Noncanonical PLCγ/PKCα Pathway

et al. 2014

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Summary Chemotaxis, migration towards soluble chemical cues, is critical for processes such as wound healing and immune surveillance, and is exhibited by various cell types from rapidly-migrating leukocytes to slow-moving mesenchymal cells. To interrogate the mechanisms involved in mesenchymal chemotaxis, we observed cell migration in microfluidic chambers that generate stable gradients of the chemoattractant PDGF. Surprisingly, we found that pathways implicated in amoeboid chemotaxis, such as PI3K and mTOR signaling, are dispensable for chemotaxis to PDGF. Instead, we find that local inactivation of Myosin IIA, through a non-canonical Ser1/2 phosphorylation of the regulatory light chain, is essential. This site is phosphorylated by PKCα, which is activated by an intracellular gradient of diacylglycerol generated by PLCγ. Using a combination of TIRF imaging and gradients of activators/inhibitors in the microfluidic chambers, we demonstrate that this signaling pathway and subsequent inhibition of Myosin II activity at the leading edge is required for mesenchymal chemotaxis.

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F-actin bundles direct the initiation and orientation of lamellipodia through adhesion-based signaling

Johnson

King

Asokan

et al. 2015

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Lamellipodia are critical for haptotactic sensing and response

King

Asokan

Haynes

et al. 2016

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Haptotaxis is the process by which cells respond to gradients of substrate-bound cues, such as extracellular matrix proteins (ECM); however, the cellular mechanism of this response remains poorly understood and has mainly been studied by comparing cell behavior on uniform ECMs with different concentrations of components. To study haptotaxis in response to gradients, we utilized microfluidic chambers to generate gradients of the ECM protein fibronectin, and imaged the cell migration response. Lamellipodia are fan-shaped protrusions that are common in migrating cells. Here, we define a new function for lamellipodia and the cellular mechanism required for haptotaxisdifferential actin and lamellipodial protrusion dynamics lead to biased cell migration. Modest differences in lamellipodial dynamics occurring over time periods of seconds to minutes are summed over hours to produce differential whole cell movement towards higher concentrations of fibronectin. We identify a specific subset of lamellipodia regulators as being crucial for haptotaxis. Numerous studies have linked components of this pathway to cancer metastasis and, consistent with this, we find that expression of the oncogenic Rac1 P29S mutation abrogates haptotaxis. Finally, we show that haptotaxis also operates through this pathway in 3D environments.

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The Spatiotemporal Limits of Developmental Erk Signaling

Johnson

Goyal

Pannucci

et al. 2017

Mechanisms of Development

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Heath E. Johnson

Profilin-1 Serves as a Gatekeeper for Actin Assembly by Arp2/3-Dependent and -Independent Pathways

The Spatiotemporal Limits of Developmental Erk Signaling

Migrating fibroblasts reorient directionality by a metastable, PI3K-dependent mechanism

Signaling Dynamics Control Cell Fate in the Early Drosophila Embryo

Mesenchymal Chemotaxis Requires Selective Inactivation of Myosin II at the Leading Edge via a Noncanonical PLCγ/PKCα Pathway

F-actin bundles direct the initiation and orientation of lamellipodia through adhesion-based signaling

Lamellipodia are critical for haptotactic sensing and response

The Spatiotemporal Limits of Developmental Erk Signaling

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