L. Miya Fujimoto scite author profile

Three cell-permeant compounds, cytochalasin D, latrunculin A and jasplakinolide, which perturb intracellular actin dynamics by distinct mechanisms, were used to probe the role of filamentous actin and actin assembly in clathrin-mediated endocytosis in mammalian cells. These compounds had variable effects on receptor-mediated endocytosis of transferrin that depended on both the cell line and the experimental protocol employed. Endocytosis in A431 cells assayed in suspension was inhibited by latrunculin A and jasplakinolide, but resistant to cytochalasin D, whereas neither compound inhibited endocytosis in adherent A431 cells. In contrast, endocytosis in adherent CHO cells was more sensitive to disruption of the actin cytoskeleton than endocytosis in CHO cells grown or assayed in suspension. Endocytosis in other cell types, including nonadherent K562 human erythroleukemic cells or adherent Cos-7 cells was unaffected by disruption of the actin cytoskeleton. While it remains possible that actin filaments can play an accessory role in receptor-mediated endocytosis, these discordant results indicate that actin assembly does not play an obligatory role in endocytic coated vesicle formation in cultured mammalian cells.

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The Actin Cytoskeleton Is Required for Receptor-mediated Endocytosis in Mammalian Cells

Lamaze

Fujimoto

Yin³

et al. 1997

Journal of Biological Chemistry

370

274

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Actin filament organization is essential for endocytosis in yeast. In contrast, the actin-depolymerizing agent cytochalasin D has yielded ambiguous results as to a role for actin in receptor-mediated endocytosis in mammalian cells. We have therefore re-examined this issue using highly specific reagents known to sequester actin monomers. Two of these reagents, thymosin ␤4 and DNase I, potently inhibited the sequestration of transferrin receptors into coated pits as measured in a cellfree system using perforated A431 cells. At low concentrations, thymosin ␤4 but not DNase I was stimulatory. Importantly, the effects of both reagents were specifically neutralized by the addition of actin monomers. A role for the actin cytoskeleton was also detected in intact cells where latrunculin A, a drug that sequesters actin monomers, inhibited receptor-mediated endocytosis. Biochemical and morphological analyses suggest that these reagents inhibit later events in coated vesicle budding. These results provide new evidence that the actin cytoskeleton is required for receptor-mediated endocytosis in mammalian cells.The plasma membrane is directly linked to and functionally integrated with the underlying actin-based cytoskeleton which forms the cell "cortex." Thus, it might be anticipated that vesicular trafficking at the plasma membrane would require the active rearrangement of cortical actin filaments to remove a barrier to vesicular fusion or budding events. Alternatively, actin and actin-based motor proteins might be required to direct vesicle budding and fusion events through the cell cortex at the plasma membrane. Actin filaments can play both inhibitory and facilatory roles in exocytosis. For example, agoniststimulated secretion appears to require localized disassembly of F-actin at the cell periphery (1, 2). Furthermore, low concentrations of proteins which sequester actin monomers can trigger regulated secretion in permeabilized pancreatic acinar cells suggesting that actin filaments might act as a clamp preventing fusion of docked vesicles (3). In contrast, higher concentrations of these actin-sequestering proteins inhibit regulated secretion, suggesting that actin filament integrity might also play an as yet undefined, facilatory role in regulated exocytosis (3).Receptor-mediated endocytosis of the mating pheromone ␣-factor is potently inhibited in the yeast, S. cerevisiae, expressing mutations in either actin or the actin-binding protein, fimbrin (4). Yeast carrying mutations in three other genes, END3, END5/VRP1, and END7/RVS167, which disrupt actin organization, were also shown to be defective in endocytosis (5, 6). More recently a role for the type I myosin, myo5, in receptormediated endocytosis in yeast was revealed (7). Together these studies establish that actin filaments and actin-based motor proteins play an essential role in endocytosis in yeast.In contrast, the role of actin in endocytosis in mammalian cells remains poorly understood. Cytochalasin D, a drug that destabilizes actin filaments, inhibits receptor...

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Three-Dimensional Structure of Vinculin Bound to Actin Filaments

et al. 2006

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Vinculin plays a pivotal role in cell adhesion and migration by providing the link between the actin cytoskeleton and the transmembrane receptors, integrin and cadherin. We used a combination of electron microscopy, computational docking, and biochemistry to provide an atomic model of how the vinculin tail binds actin filaments. The vinculin tail actin binding site comprises two distinct regions. One of these regions is exposed in the full-length autoinhibited conformation of vinculin, whereas the second site is sterically occluded by vinculin's N-terminal domain. The partial accessibility of the F-actin binding site in the autoinhibited full-length vinculin structure suggests that F-actin can act as part of a combinatorial input framework with other binding partners such as alpha-catenin or talin to induce vinculin head-tail dissociation, thus promoting vinculin activation. Furthermore, binding to F-actin potentiates a local rearrangement in the vinculin tail that in turn promotes vinculin dimerization and, hence, formation of actin bundles.

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Conformation of BCL-XL upon Membrane Integration

Yao

Fujimoto

Hirshman

et al. 2015

Journal of Molecular Biology

108

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BCL-XL is an anti-apoptotic BCL-2 family protein found both in the cytosol and bound to intracellular membranes. Structural studies of BCL-XL have advanced by deleting its hydrophobic C-terminus and adding detergents to enhance solubility. However, since the C-terminus is essential for function and detergents strongly affect structure and activity, the molecular mechanisms controlling intracellular localization and cytoprotective activity are incompletely understood. Here we describe the conformations and ligand-binding activities of water-soluble and membrane-bound BCL-XL, with its complete C-terminus, in detergent-free environments. We show that the C-terminus interacts with a conserved surface groove in the water-soluble state of the protein and inserts across the phospholipid bilayer in the membrane-bound state. Contrary to current models, membrane binding does not induce a conformational change in the soluble domain and both states bind a known ligand with affinities that are modulated by the specific state of the protein.

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Influence of the lipid membrane environment on structure and activity of the outer membrane protein Ail from Yersinia pestis

Ding

Fujimoto

Yao

et al. 2015

Biochimica et Biophysica Acta (BBA) - Biomembranes

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The surrounding environment has significant consequences for the structural and functional properties of membrane proteins. While native structure and function can be reconstituted in lipid bilayer membranes, the detergents used for protein solubilization are not always compatible with biological activity and, hence, not always appropriate for direct detection of ligand binding by NMR spectroscopy. Here we describe how the sample environment affects the activity of the outer membrane protein Ail (attachment invasion locus) from Yersinia pestis. Although Ail adopts the correct β-barrel fold in micelles, the high detergent concentrations required for NMR structural studies are not compatible with the ligand binding functionality of the protein. We also describe preparations of Ail embedded in phospholipid bilayer nanodiscs, optimized for NMR studies and ligand binding activity assays. Ail in nanodiscs is capable of binding its human ligand fibronectin and also yields high quality NMR spectra that reflect the proper fold. Binding activity assays, developed to be performed directly with the NMR samples, show that ligand binding involves the extracellular loops of Ail. The data show that even when detergent micelles support the protein fold, detergents can interfere with activity in subtle ways.

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L. Miya Fujimoto

Actin Assembly Plays a Variable, but not Obligatory Role in Receptor‐Mediated Endocytosis

The Actin Cytoskeleton Is Required for Receptor-mediated Endocytosis in Mammalian Cells

Three-Dimensional Structure of Vinculin Bound to Actin Filaments

Conformation of BCL-XL upon Membrane Integration

Influence of the lipid membrane environment on structure and activity of the outer membrane protein Ail from Yersinia pestis

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