Correlation between effects of 24 different cytochalasins on cellular structures and cellular events and those on actin in vitro

Yahara, Ichiro; Harada, Fumiko; Sekita, Setsuko; Yoshihira, Kunitoshi; Natori, Shinsaku

doi:10.1083/jcb.92.1.69

Cited by 314 publications

(164 citation statements)

References 48 publications

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“…These compounds are known to disrupt the organization of the Golgi complex and were added for the indicated time before exposure to NBD-chol. The effects of cytochalasin D (20 M, 60 min), a compound known to disrupt the actin network (21), and N -ethyl-maleimide (NEM) (1 mM, 20 min), a V-type ATPase inhibitor (22), on NBD-chol influx were also assessed.…”

Section: Effects Of Various Pharmacological Agents On Cholesterol Flumentioning

confidence: 99%

HDL-mediated cholesterol uptake and targeting to lipid droplets in adipocytes

Dagher

Donne

Klein

et al. 2003

Journal of Lipid Research

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Adipocytes express high levels of the HDL scavenger receptor class B type I in a differentiation-dependent manner. We thus have analyzed the routes of HDL cholesterol trafficking at different phases of adipocyte differentiation in the 3T3-L1 cell line. One novel and salient feature of this paper is the observation of a widespread distribution in the cell cytoplasm of Golgi markers, caveolin-2, and a fluorescent cholesterol analog NBD-cholesterol (NBD-chol), observed in the early phases of adipocyte formation, clearly distinct from that observed in mature fat cells (i.e., with fully formed lipid vesicles). Thus, in cells without visible lipid droplets, Golgi markers (Golgi 58K, Golgin 97, transGolgi network 38, Rab 6, and BODIPY-ceramide), caveolin-2, and NBD-chol all colocalize in a widespread distribution in the cell. In contrast, when lipid droplets are fully formed at latter stages, these markers clearly are distributed to distinct cell compartments: a compact juxtanuclear structure for the Golgi markers and caveolin-2, while NDB-chol concentrates in lipid droplets. In addition, disorganization of the Golgi using three different agents (Brefeldin, monensin, and N -ethyl-maleimide) drastically reduces NBD-chol uptake at different phases of adipocyte formation, strongly suggesting that the Golgi apparatus plays a critical role in HDL-mediated NBD uptake and routing to lipid droplets. -Dagher, G., N. Donne, C. Klein, P. Ferré, and I. Dugail. HDL-mediated cholesterol uptake and targeting to lipid droplets in adipocytes. J. Lipid Res. 2003. 44: 1811-1820.

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Section: Effects Of Various Pharmacological Agents On Cholesterol Flumentioning

confidence: 99%

HDL-mediated cholesterol uptake and targeting to lipid droplets in adipocytes

Dagher

Donne

Klein

et al. 2003

Journal of Lipid Research

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“…The organization and dynamics of specific actin microfilaments are regulated by various actin binding proteins that have the ability to bind either to monomeric or to filamentous actin or to both. As polar structures, actin filaments elongate mainly at their barbed end in the cell (Casella et al, 1981;Fox and Phillips, 1981;Tellam and Frieden, 1982;Yahara et al, 1982;Symons and Mitchison, 1991;Redmond et al, 1994). A key mechanism regulating actin assembly is the creation of new barbed ends by the de novo nucleation of new actin filaments (Blanchoin et al, 2000;Wear et al, 2000;Pollard et al, 2001).…”

Section: Introductionmentioning

confidence: 99%

ArabidopsisFormin3 Directs the Formation of Actin Cables and Polarized Growth in Pollen Tubes

et al. 2009

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Cytoplasmic actin cables are the most prominent actin structures in plant cells, but the molecular mechanism underlying their formation is unknown. The function of these actin cables, which are proposed to modulate cytoplasmic streaming and intracellular movement of many organelles in plants, has not been studied by genetic means. Here, we show that Arabidopsis thaliana formin3 (AFH3) is an actin nucleation factor responsible for the formation of longitudinal actin cables in pollen tubes. The Arabidopsis AFH3 gene encodes a 785-amino acid polypeptide, which contains a formin homology 1 (FH1) and a FH2 domain. In vitro analysis revealed that the AFH3 FH1FH2 domains interact with the barbed end of actin filaments and have actin nucleation activity in the presence of G-actin or G actin-profilin. Overexpression of AFH3 in tobacco (Nicotiana tabacum) pollen tubes induced excessive actin cables, which extended into the tubes' apices.

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“…Amongthese, studies on cells treated with cytochalasins or fungus metabolites have shownthe necessity of actin filaments for many aspects of cellular functions (3). Cytochalasins bind to the barbed end of actin filaments and inhibit both association and dissociation of monomers at that end.…”

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confidence: 99%

Cellular Changes of Rat Embryonic Fibroblasts by an Actin-Polymerization Inhibitor, Bistheonellide A, from a Marine Sponge.

Watabe

Wada

Matsunaga

et al. 1996

Cell Struct. Funct.

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Keywords: rat fibroblast/actin polymerization/bistheonellide A/marinespongetoxin/cytokinesis ABSTRACT. Bistheonellide A, an inhibitor of actin polymerization from the marine sponge Theonella sp., was introduced at a concentration of 100 nM into rat 3Y1 fibroblast of 2.4 x 104 cells/ml. Within 1 h, it disrupted stress fibers, accompanied by a marked change of the cell morphology, resulting in the formation of processes from the cell surface. Further incubation for 24 h in the presence of 100 nMbistheonellide A led to binucleation in most cells and subsequent inhibition of cell cycle progression. Whenbistheonellide A was withdrawn from the culture medium, binuclear cells began to grow again within 20 h and reverted to mononuclear morphology. Flow cytometric analysis by fluorescence-activated cell sorting showed that 2C diploid DNAcontent in Gl phase was changed into 4C content of tetraploid for the bistheonellide A treated-cells in Gl phase and into 8C content during G2 and M phase. Therefore, we suggested that the bistheonellide A treatment inhibited cytokinesis, but not mitosis in M phase, and that treated cells were arrested at the early Gl phase. These effects of bistheonellide A on the cell cycle progression of 3Y1fibroblast were also observed more prominently in cells synchronized in S phase with hydroxyurea. Cells in GOphase were then activated by the addition of fetal calf serum in the presence of 100 nMbistheonellide A. Cell cycle progression of the bistheonellide A-treated cells was obviously slowed downor completely inhibited during Gl phase. These results reveal that actin filaments are not only essential to cytokinesis but also for promoting the progression of cell cycle from Gl to S phase. Actin, the kinetic and structural protein characterized as an inner muscle constituent, exists in all eukaryotic cells. Intracellular actin molecules form a cytoskeletal filamentous structure consisting of micro filaments. Moreover, actin filaments becomethe major component of the contractile ring in telophase and carry out cytokinesis (1). These dynamic functions of actin filaments depend on the regulation of the monomer polymerization and the filament assembly under the influence of various actin-binding proteins beside the interaction with myosin (2).

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Correlation between effects of 24 different cytochalasins on cellular structures and cellular events and those on actin in vitro

Cited by 314 publications

References 48 publications

HDL-mediated cholesterol uptake and targeting to lipid droplets in adipocytes

HDL-mediated cholesterol uptake and targeting to lipid droplets in adipocytes

ArabidopsisFormin3 Directs the Formation of Actin Cables and Polarized Growth in Pollen Tubes

Cellular Changes of Rat Embryonic Fibroblasts by an Actin-Polymerization Inhibitor, Bistheonellide A, from a Marine Sponge.

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