Laura M. Machesky scite author profile

Advances in our understanding of the mechanisms of lamellipodia and filopodia assembly have led to a better concept of how cells move, including how the actin cytoskeleton might be important for the motility of metastatic cancer cells. The cytoskeleton is a potentially interesting target for prevention of invasion and metastasis. As key proteins are uncovered which regulate the assembly of actin-based structures, these need to be considered in light of whether they represent potential invasion and metastasis proteins.

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The creatine–phosphagen system is mechanoresponsive in pancreatic adenocarcinoma and fuels invasion and metastasis

Papalazarou

et al. 2020

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Ligand-Occupied Integrin Internalization Links Nutrient Signaling to Invasive Migration

et al. 2015

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Integrin trafficking is key to cell migration, but little is known about the spatiotemporal organization of integrin endocytosis. Here, we show that α5β1 integrin undergoes tensin-dependent centripetal movement from the cell periphery to populate adhesions located under the nucleus. From here, ligand-engaged α5β1 integrins are internalized under control of the Arf subfamily GTPase, Arf4, and are trafficked to nearby late endosomes/lysosomes. Suppression of centripetal movement or Arf4-dependent endocytosis disrupts flow of ligand-bound integrins to late endosomes/lysosomes and their degradation within this compartment. Arf4-dependent integrin internalization is required for proper lysosome positioning and for recruitment and activation of mTOR at this cellular subcompartment. Furthermore, nutrient depletion promotes subnuclear accumulation and endocytosis of ligand-engaged α5β1 integrins via inhibition of mTORC1. This two-way regulatory interaction between mTORC1 and integrin trafficking in combination with data describing a role for tensin in invasive cell migration indicate interesting links between nutrient signaling and metastasis.

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Seeing around corners: Cells solve mazes and respond at a distance using attractant breakdown

Tweedy

Thomason

Paschke

et al. 2020

Science

113

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During development and metastasis, cells migrate large distances through complex environments. Migration is often guided by chemotaxis, but simple chemoattractant gradients between a source and sink cannot direct cells over such ranges. We describe how self-generated gradients, created by cells locally degrading attractant, allow single cells to navigate long, tortuous paths and make accurate choices between live channels and dead ends. This allows cells to solve complex mazes efficiently. Cells’ accuracy at finding live channels was determined by attractant diffusivity, cell speed, and path complexity. Manipulating these parameters directed cells in mathematically predictable ways; specific combinations can even actively misdirect them. We propose that the length and complexity of many long-range migratory processes, including inflammation and germ cell migration, means that self-generated gradients are needed for successful navigation.

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Identification of a novel, actin-rich structure, the actin nodule, in the early stages of platelet spreading

Calaminus

Thomas

McCarty

et al. 2008

Journal of Thrombosis and Haemostasis

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To cite this article: Calaminus SDJ, Thomas S, McCarty OJT, Machesky LM, Watson SP. Identification of a novel, actin-rich structure, the actin nodule, in the early stages of platelet spreading. J Thromb Haemost 2008; 6: 1944-52.Summary. Background: During platelet spreading, the actin cytoskeleton undergoes marked changes, forming filopodia, lamellipodia and stress fibres. In the present study, we report the identification of a novel actin-rich structure, termed an actin nodule, which appears prior to lamellipodia and stress fibre formation. Methods: Platelet spreading was monitored using human platelets and mouse GFP-actin platelets using real-time and end-point DIC, and fluorescent and electron microscopy (EM). Results: We identified a small, novel actin structure, the actin nodule, in the early stages of adhesion and spreading, which we hypothesize to be a precursor of lamellipodia and stress fibres. Nodule formation shows an inverse correlation to Rho kinase and myosin-II activity, is independent of PI3-kinase, but dependent on Src kinase activity. Actin nodules contain multiple proteins, including Arp2/3, Fyn, Rac, and b1-and b3-integrins, but not Src. EM analysis revealed that actin filaments extend in all directions from the nodules. Actin nodules are present on multiple matrices, including fibrinogen, laminin and VWF + botrocetin. Conclusion: This work identifies a novel platelet actin structure, which we propose is a precursor to both lamellipodia and stress fibres and acts to drive platelet spreading.

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A unique talin homologue with a villin headpiece-like domain is required for multicellular morphogenesis in Dictyostelium

et al. 1999

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Molecules involved in the interaction between the extracellular matrix, cell membrane and cytoskeleton are of central importance in morphogenesis. Talin is a large cytoskeletal protein with a modular structure consisting of an amino-terminal membrane-interacting domain, with sequence similarities to members of the band 4.1 family, and a carboxy-terminal region containing F-actin-binding and vinculin-binding domains [1] [2]. It also interacts with the cytoplasmic tail of beta integrins which, on the external face of the membrane, bind to extracellular matrix proteins [3]. The possible roles of talin in multicellular morphogenesis in development remain largely unexplored. In Dictyostelium, a eukaryotic microorganism capable of multicellular morphogenesis, a talin homologue (TALA) has previously been identified and shown to play an important role in cell-to-substrate adhesion and maintenance of normal elastic properties of the cell [4] [5] [6]. Here, we describe a second talin homologue (TALB) that is required for multicellular morphogenesis in the development of Dictyostelium. Unlike any other talin characterised to date, it contains an additional carboxy-terminal domain homologous to the villin headpiece.

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von Willebrand factor mediates platelet spreading through glycoprotein Ib and αIIbβ3 in the presence of botrocetin and ristocetin, respectively

McCarty

Calaminus

Berndt

et al. 2006

Journal of Thrombosis and Haemostasis

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Summary. Background: von Willebrand factor (VWF) plays a critical role in the process of hemostasis by mediating flowdependent adhesion and spreading of platelets on exposed extracellular matrix proteins following vascular injury. To accomplish this, VWF binds to two distinct platelet receptors: glycoprotein (GP)Ib-IX-V and integrin a IIb b 3 . Objective: To evaluate the ability of GPIb and a IIb b 3 to mediate platelet adhesion and lamellipodia formation on immobilized VWF in the presence of the biochemical modulators, ristocetin and botrocetin. Results: In the presence of botrocetin and inhibitors of adenosine diphosphate (ADP) and thromboxane A 2 (TxA 2 ), VWF is able to support formation of lamellipodia through a GPIb-dependent mechanism that is independent of a IIb b 3 and PI3-kinase. Lamellipodia formation under these conditions is incomplete. In marked contrast, in the presence of ristocetin, VWF stimulates formation of fully spread lamellipodia through a pathway that is dependent upon a IIb b 3 and PI3-kinase. Furthermore, a IIb b 3 also supports platelet spreading on VWF alone, but only in the absence of inhibitors of ADP and TxA 2 . The localization of filamentous actin and the Arp2/3 complex in platelets on VWF in the presence of botrocetin and ristocetin are distinct, yielding disparate lamellipodium kinetic signatures. Interestingly, botrocetin significantly enhances platelet adhesion to VWF under flow in whole blood in an a IIb b 3 -independent manner, while ristocetin augments washed platelet adhesion and spreading to VWF under flow in an a IIb b 3 -dependent manner. Conclusions: These observations demonstrate that VWF is able to induce lamellipodia formation through distinct receptors, and has important consequences for investigation of the role of VWF-GPIb interactions in the context of platelet regulation.

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CYRI-A limits invasive migration through macropinosome formation and integrin uptake regulation

Yelland

Paul

et al. 2021

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The Scar/WAVE complex drives actin nucleation during cell migration. Interestingly, the same complex is important in forming membrane ruffles during macropinocytosis, a process mediating nutrient uptake and membrane receptor trafficking. Mammalian CYRI-B is a recently described negative regulator of the Scar/WAVE complex by RAC1 sequestration, but its other paralogue, CYRI-A, has not been characterized. Here, we implicate CYRI-A as a key regulator of macropinosome formation and integrin internalization. We find that CYRI-A is transiently recruited to nascent macropinosomes, dependent on PI3K and RAC1 activity. CYRI-A recruitment precedes RAB5A recruitment but follows sharply after RAC1 and actin signaling, consistent with it being a local inhibitor of actin polymerization. Depletion of both CYRI-A and -B results in enhanced surface expression of the α5β1 integrin via reduced internalization. CYRI depletion enhanced migration, invasion, and anchorage-independent growth in 3D. Thus, CYRI-A is a dynamic regulator of macropinocytosis, functioning together with CYRI-B to regulate integrin trafficking.

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Laura M. Machesky

Lamellipodia and filopodia in metastasis and invasion

The creatine–phosphagen system is mechanoresponsive in pancreatic adenocarcinoma and fuels invasion and metastasis

Ligand-Occupied Integrin Internalization Links Nutrient Signaling to Invasive Migration

Seeing around corners: Cells solve mazes and respond at a distance using attractant breakdown

Identification of a novel, actin-rich structure, the actin nodule, in the early stages of platelet spreading

A unique talin homologue with a villin headpiece-like domain is required for multicellular morphogenesis in Dictyostelium

von Willebrand factor mediates platelet spreading through glycoprotein Ib and αIIbβ3 in the presence of botrocetin and ristocetin, respectively

CYRI-A limits invasive migration through macropinosome formation and integrin uptake regulation

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