Effects of small doses of cytochalasins on fibroblasts: preferential changes of active edges and focal contacts.

Domnina, L. V.; Gelfand, Vladimir I.; Ivanova, O. Yu.; Леонова, Е. В.; Pletjushkina, Olga Yu.; Vasiliev, J. M.; Gelfand, Israel M.

doi:10.1073/pnas.79.24.7754

Cited by 36 publications

(19 citation statements)

References 26 publications

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“…Contractility is important for actin stress fibers and focal adhesion formation (Chrzanowska-Wodnicka and Burridge, 1996), and stress fibers are essential for the maintenance of focal adhesions in intact cells (Domnina et al, 1982). Incubation of VPMs at 37°C leads to a drastic loss of components from the focal contacts of a major fraction of VPMs, indicating that a detectable presence of these proteins at the membrane is not required for integrin redistribution under cell-free conditions.…”

Section: Discussionmentioning

confidence: 99%

A Cell-free System to Study Regulation of Focal Adhesions and of the Connected Actin Cytoskeleton

Cattelino

Albertinazzi

Bossi

et al. 1999

MBoC

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Assembly and modulation of focal adhesions during dynamic adhesive processes are poorly understood. We describe here the use of ventral plasma membranes from adherent fibroblasts to explore mechanisms regulating integrin distribution and function in a system that preserves the integration of these receptors into the plasma membrane. We find that partial disruption of the cellular organization responsible for the maintenance of organized adhesive sites allows modulation of integrin distribution by divalent cations. High Ca 2ϩ concentrations induce quasi-reversible diffusion of ␤1 integrins out of focal adhesions, whereas low Ca 2ϩ concentrations induce irreversible recruitment of ␤1 receptors along extracellular matrix fibrils, as shown by immunofluorescence and electron microscopy. Both effects are independent from the presence of actin stress fibers in this system. Experiments with cells expressing truncated ␤1 receptors show that the cytoplasmic portion of ␤1 is required for low Ca 2ϩ -induced recruitment of the receptors to matrix fibrils. Analysis with function-modulating antibodies indicates that divalent cation-mediated receptor distribution within the membrane correlates with changes in the functional state of the receptors. Moreover, reconstitution experiments show that purified ␣-actinin colocalizes and redistributes with ␤1 receptors on ventral plasma membranes depleted of actin, implicating binding of ␣-actinin to the receptors. Finally, we found that recruitment of exogenous actin is specifically restricted to focal adhesions under conditions in which new actin polymerization is inhibited. Our data show that the described system can be exploited to investigate the mechanisms of integrin function in an experimental setup that permits receptor redistribution. The possibility to uncouple, under cell-free conditions, events involved in focal adhesion and actin cytoskeleton assembly should facilitate the comprehension of the underlying molecular mechanisms.

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Section: Discussionmentioning

confidence: 99%

A Cell-free System to Study Regulation of Focal Adhesions and of the Connected Actin Cytoskeleton

Cattelino

Albertinazzi

Bossi

et al. 1999

MBoC

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“…Cytochalasin B [Domina et al, 1982;Yahara et al, 19821 and ATP depletion [Bershadsky et al, 1980;Svitkina et al, 1986;Glascott et al, 19871 are both treatments that are known to effect the state of actin polymerization. Therefore, we incubated 3T3 cells with cytochalasin B, or depleted their ATP with sodium azide ( 5 mM) and 2-deoxy-D-glucose (4.5 mg/ml) in glucosedeficient DME with 10% calf serum, for up to 90 minutes.…”

Section: The Stability Of the Actin Edge-bundlementioning

confidence: 99%

What structures, besides adhesions, prevent spread cells from rounding up?

Zand

Albrecht‐Buehler

1989

Cell Motil. Cytoskeleton

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The outline of cells in sparse cultures consists predominantly of concave and convex segments; straight segments are rare and ephemeral. The convex segments are areas of active cell expansion. The concave segments are stationary and web-shaped, similar in profile to the cables of a suspension bridge. In 3T3 fibroblasts, we have found a single microfilament bundle following the outline of every webbed edge and have called it the actin edge-bundle (AEB). While the AEB is composed predominantly of actin, alpha-actinin and myosin are also present. In contrast to normal stress fibers, AEBs are more resistant to several treatments that depolymerize F-actin. Once an AEB disassembles, however, the webbed edge collapses and retracts, suggesting that the actin edge-bundle is a specialized cytoskeletal structure that supports the webbed edges of interphase 3T3 fibroblasts. The stability of AEBs is independent of microtubules. We suggest that the microfilament bundles that frequently line the lateral contacts between epithelial cells in vivo may be related to the actin edge-bundle.

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“…3b). Although CB is known to induce abnormal forms of actin (Domnina et al, 1982) such as F-actin in "needles" and blebs (Fig. 3a), it does not induce F-actin aggregates in NRK cells.…”

Section: Resultsmentioning

confidence: 96%

“…Information on the regulation of such cell structures by any of these nucleotides or drugs is meager. Movement may well be associated with these CB-resistant SAG or MAG structures, because the only known CB-resistant structures in normal cells are the moving lamellas at the cell periphery (Domnina et al, 1982). Knowing these characteristics about F-actin-membrane structures may aid in identifying the causes of uninhibited growth, as well as adhesion and movement abnormalities in tumor cells.…”

Section: Resultsmentioning

confidence: 99%

Regulation and drug insensitivity of f‐actin association with adhesion areas of transformed cells

Carley

Lipsky

Webb

1983

Journal Cellular Physiology

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F-actin aggregates have been found near the substrate attachments in a variety of transformed cells (Carley et al., 1981). Interference reflection microscopy shows that these aggregates are present in central close adhesion areas in Rous sarcoma virus (RSV)-transformed rat kidney cells. If these transformed cells are incubated with N6, O2-dibutyryl 3':5'-cyclic monophosphoric acid (db-cAMP), adenosine 5'-monophosphoric acid (5'-AMP) or adenosine, the F-actin aggregates and their associated close adhesion areas disappear, and the cells flatten out. Treatment of untransformed cells with db-cAMP spreads their focal adhesion plaques and thickens microfilament bundles. Furthermore, F-actin aggregates are substantially more resistant to cytochalasin B and the Ca2+ ionophore A23187 than microfilament bundles in untransformed cells. These differences between F-actin complexes in untransformed and in RSV-transformed cells, with respect to morphology and sensitivities to db-cAMP and cytoskeleton-disrupting drugs, define properties of the change in F-actin regulation and association with the plasma membrane due to transformation.

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Effects of small doses of cytochalasins on fibroblasts: preferential changes of active edges and focal contacts.

Cited by 36 publications

References 26 publications

A Cell-free System to Study Regulation of Focal Adhesions and of the Connected Actin Cytoskeleton

A Cell-free System to Study Regulation of Focal Adhesions and of the Connected Actin Cytoskeleton

What structures, besides adhesions, prevent spread cells from rounding up?

Regulation and drug insensitivity of f‐actin association with adhesion areas of transformed cells

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