Membrane ruffling and signal transduction.

Ridley AJ

doi:10.1002/bies.950160506

Abstract

One of the earliest structural changes observed in cells in response to many extracellular factors is membrane ruffling: the formation of motile cell surface protrusions containing a meshwork of newly polymerized actin filaments. It is becoming clear that actin reorganization is an integral part of early signal transduction pathways, and that many signalling molecules interact with the actin cytoskeleton. The small GTP-binding protein Rac is a key regulator of membrane ruffling, and proteins that can regulate Rac activity, such as Bcr, are likely to act on this signalling pathway. In addition, several previously characterized signal transducing molecules are implicated in the membrane-ruffling response, including Ras, the adaptor protein Grb2, phosphatidyl inositol 3-kinase, phospholipase A2 and phorbol ester-responsive proteins. Changes in polyphosphoinositide metabolism and intracellular Ca2+ levels may also play a role. A number of actin-binding and organizing proteins localize to membrane ruffles and are potential targets for these signal transducing molecules.

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Articles referenced by this article (75)

The actin cytoskeleton.
Small JV
Electron Microsc Rev, (1):155-174 1988
MED: 2485000
On the crawling of animal cells.
Stossel TP
Science, (5111):1086-1094 1993
MED: 8493552
An agent or agents produced by virus-transformed cells cause unregulated ruffling in untransformed cells.
Myrdal SE, Auersperg N
J Cell Biol, (4):1224-1229 1986
MED: 3007528
Induction of membrane ruffling and fluid-phase pinocytosis in quiescent fibroblasts by ras proteins.
Bar-Sagi D, Feramisco JR
Science, (4768):1061-1068 1986
MED: 3090687
Diacylglycerols and PMA are particularly effective stimulators of fluid pinocytosis in human neutrophils.
Keller HU
J Cell Physiol, (3):465-471 1990
MED: 2177059
and (1993). Cytoskeletal changes associated with cell motility. In Cell Behaviour: Adhesion and Motility, SEB Symposium 47 (ed. and ), pp 325-338. Cambridge, The Company of Biologists Ltd.
Induction of circular membrane ruffling on human fibroblasts by platelet-derived growth factor.
Mellstrom K, Heldin CH, Westermark B
Exp Cell Res, (2):347-359 1988
MED: 3391248
The role of actin polymerization in cell motility.
Cooper JA
Annu Rev Physiol, 585-605 1991
MED: 2042972
How do cells move along surfaces?
Lee J, Ishihara A, Jacobson K
Trends Cell Biol, (11):366-370 1993
MED: 14731652
Production of a unique antibody specific for membrane ruffles and its use to characterize the behavior of two distinct types of ruffles.
Hasegawa T
J Cell Biol, (6):1439-1448 1993
MED: 8095502

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Membrane ruffling and signal transduction.

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Abstract

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References

The actin cytoskeleton.

On the crawling of animal cells.

An agent or agents produced by virus-transformed cells cause unregulated ruffling in untransformed cells.

Induction of membrane ruffling and fluid-phase pinocytosis in quiescent fibroblasts by ras proteins.

Diacylglycerols and PMA are particularly effective stimulators of fluid pinocytosis in human neutrophils.

and (1993). Cytoskeletal changes associated with cell motility. In Cell Behaviour: Adhesion and Motility, SEB Symposium 47 (ed. and ), pp 325-338. Cambridge, The Company of Biologists Ltd.

Induction of circular membrane ruffling on human fibroblasts by platelet-derived growth factor.

The role of actin polymerization in cell motility.

How do cells move along surfaces?

Production of a unique antibody specific for membrane ruffles and its use to characterize the behavior of two distinct types of ruffles.

Citations & impact

Impact metrics

Citations of article over time

Article citations

Membrane Ruffles: Composition, Function, Formation and Visualization.

Lamellipodia dynamics and microrheology in endothelial cell paracellular gap closure.

Campylobacter jejuni: targeting host cells, adhesion, invasion, and survival.

H9N2 virus-derived M1 protein promotes H5N6 virus release in mammalian cells: Mechanism of avian influenza virus inter-species infection in humans.

Rac1 activation can generate untemplated, lamellar membrane ruffles.

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Search life-sciences literature (45,104,206 articles, preprints and more)

Membrane ruffling and signal transduction.

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and (1993). Cytoskeletal changes associated with cell motility. In Cell Behaviour: Adhesion and Motility, SEB Symposium 47 (ed. and ), pp 325-338. Cambridge, The Company of Biologists Ltd.

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