Ilia Ichetovkin scite author profile

One of the earliest events in the process of cell motility is the massive generation of free actin barbed ends, which elongate to form filaments adjacent to the plasma membrane at the tip of the leading edge. Both cofilin and Arp2/3 complex have been proposed to contribute to barbed end formation during cell motility. Attempts to assess the functions of cofilin and Arp 2/3 complex in vivo indicate that both cofilin and Arp2/3 complex contribute to actin polymerization: cofilin by severing and Arp2/3 by nucleating and branching. In order to determine if the activities of cofilin and Arp2/3 complex interact, we employed a light microscope-based assay to visualize actin polymerization directly in the presence of both proteins. The results indicate that cofilin generates barbed ends to increase the mass of freshly polymerized F-actin but does not directly affect the activity of Arp2/3 complex. However, while ADP, ADP-Pi, and newly polymerized ATP-filaments are all capable of supporting Arp2/3-mediated branching, newly polymerized F-actin supports most of the Arp2/3-induced branch formation. The results suggest that, in vivo, cofilin contributes to barbed end formation by inducing the initial increase in the number of barbed ends leading to increased ATP-F-actin, which in turn supports higher levels of dendritic nucleation by active Arp2/3 complex.

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Spatial regulation of actin dynamics: a tropomyosin-free, actin-rich compartment at the leading edge

DesMarais

et al. 2002

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Rapid polymerization of a network of short, branched actin filaments takes place at the leading edge of migrating cells, a compartment enriched in activators of actin polymerization such as the Arp2/3 complex and cofilin. Actin filaments elsewhere in the cell are long and unbranched. Results reported here show that the presence or absence of tropomyosin in these different actin-containing regions helps establish functionally distinct actin-containing compartments in the cell. Tropomyosin, an inhibitor of the Arp2/3 complex and cofilin function, was localized in relation to actin filaments, the Arp2/3 complex, and free barbed ends of actin filaments in MTLn3 cells, which rapidly extend flat lamellipodia following EGF stimulation. All tropomyosin isoforms examined using indirect immunofluorescence were relatively absent from the dynamic leading edge compartment, but did colocalize with actin structures deeper in the lamellipodium and in stress fibers. An in vitro light microscopy assay revealed that tropomyosin protects actin filaments from cofilin severing. The results suggest that tropomyosin-free actin filaments under the membrane can participate in rapid, dynamic processes that depend on interactions between the activities of the Arp2/3 complex and ADF/cofilin that tropomyosin inhibits elsewhere in the cell.

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Development and validation of a spontaneous preterm delivery predictor in asymptomatic women

Saade

Boggess

Sullivan

et al. 2016

American Journal of Obstetrics and Gynecology

100

140

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The F-actin side binding activity of the Arp2/3 complex is essential for actin nucleation and lamellipod extension

et al. 2001

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Most eukaryotic cells rely on localized actin polymerization to generate and sustain the protrusion activity necessary for cell movement [1, 2]. Such protrusions are often in the form of a flat lamellipod with a leading edge composed of a dense network of actin filaments [3, 4]. The Arp2/3 complex localizes within that network in vivo [3, 4] and nucleates actin polymerization and generates a branched network of actin filaments in vitro [5-7]. The complex has thus been proposed to generate the actin network at the leading edge of crawling cells in vivo [3, 4, 8]. However, the relative contributions of nucleation and branching to protrusive force are still unknown. We prepared antibodies to the p34 subunit of the Arp2/3 complex that selectively inhibit side binding of the complex to F-actin. We demonstrate that side binding is required for efficient nucleation and branching by the Arp2/3 complex in vitro. However, microinjection of these antibodies into cells specifically inhibits lamellipod extension without affecting the EGF-stimulated appearance of free barbed ends in situ. These results indicate that while the side binding activity of the Arp2/3 complex is required for nucleation in vitro and for protrusive force in vivo, it is not required for EGF-stimulated increases in free barbed ends in vivo. This suggests that the branching activity of the Arp2/3 complex is essential for lamellipod extension, while the generation of nucleation sites for actin polymerization is not sufficient.

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Circulating Serologic and Molecular Biomarkers in Malignant Melanoma

Palmer

Erickson

Ichetovkin³

et al. 2011

Mayo Clinic Proceedings

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Actin filaments are severed by both native and recombinant Dictyostelium cofilin but to different extents

Ichetovkin¹,

Han²,

Pang³

et al. 2000

Cell Motil. Cytoskeleton

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Cofilin has been reported to depolymerize F-actin alternately by either severing filaments to increase the number of depolymerizing ends or by increasing the off-rate of monomers from F-actin without increasing the number of filament ends. We have compared directly the ability of native and recombinant cofilins from Dictyostelium to sever F-actin. Our results demonstrate that native cofilin has a higher level of severing activity than recombinant cofilin. Significantly, the measurement of cofilin's severing activity by two independent methods, direct visualization with an improved light microscope assay and by scoring of the number of pointed ends by DNase I binding, clearly shows that both native and recombinant cofilins sever F-actin but to different extents. The severing activity in preparations of recombinant cofilin is variable depending on the method of preparation and, in some cases, is difficult to detect by microscopy assays. This latter point is particularly significant because it may lead to the conclusion that cofilin severs weakly or not at all depending on its method of isolation.

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A New Strategy for Caging Proteins Regulated by Kinases

et al. 2002

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A strategy has been developed for caging proteins that are endogenously regulated by phosphorylation. A key phosphorylatable serine in cofilin, an F-actin cleaving protein, was replaced with a nonphosphorylatable cysteine. The latter conversion ensures that the protein is no longer regulated by endogenous protein kinases. The cysteine residue was subsequently covalently modified with a negatively charged caging moiety, which electrostatically mimics the natural serine phosphate present in the inactive wild-type protein. Photoremoval of the cage generates an active protein, which cannot be switched off by endogenous protein kinases. Caged cofilin, and its irradiated counterpart, display the anticipated F-actin depolymerization and severing activities.

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Current Mechanistic and Pharmacodynamic Understanding of Melanocortin-4 Receptor Activation

et al. 2019

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In this work we summarize our understanding of melanocortin 4 receptor (MC4R) pathway activation, aiming to define a safe and effective therapeutic targeting strategy for the MC4R. Delineation of cellular MC4R pathways has provided evidence for distinct MC4R signaling events characterized by unique receptor activation kinetics. While these studies remain narrow in scope, and have largely been explored with peptidic agonists, the results provide a possible correlation between distinct ligand groups and differential MC4R activation kinetics. In addition, when a set of small-molecule and peptide MC4R agonists are compared, evidence of biased signaling has been reported. The results of such mechanistic studies are discussed.

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Ilia Ichetovkin

Cofilin Produces Newly Polymerized Actin Filaments that Are Preferred for Dendritic Nucleation by the Arp2/3 Complex

Spatial regulation of actin dynamics: a tropomyosin-free, actin-rich compartment at the leading edge

Development and validation of a spontaneous preterm delivery predictor in asymptomatic women

The F-actin side binding activity of the Arp2/3 complex is essential for actin nucleation and lamellipod extension

Circulating Serologic and Molecular Biomarkers in Malignant Melanoma

Actin filaments are severed by both native and recombinant Dictyostelium cofilin but to different extents

A New Strategy for Caging Proteins Regulated by Kinases

Current Mechanistic and Pharmacodynamic Understanding of Melanocortin-4 Receptor Activation

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