Mechanism of Cdc42-Induced Actin Polymerization in Neutrophil Extracts

Mechanism of Cdc42-Induced Actin Polymerization in Neutrophil Extracts

Cdc42, activated with GTPγS, induces actin polymerization in supernatants of lysed neutrophils. This polymerization, like that induced by agonists, requires elongation at filament barbed ends. To determine if creation of free barbed ends was sufficient to induce actin polymerization, free barbed end...

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Bibliographic Details
Published in:The Journal of cell biology Vol. 142; no. 4; pp. 1001 - 1012
Main Authors: Zigmond, Sally H., Joyce, Michael, Yang, Changsong, Brown, Kevin, Huang, Minzhou, Pring, Martin
Format: Journal Article
Language:English
Published: United States Rockefeller University Press 24-08-1998
The Rockefeller University Press
Subjects:
Actin Cytoskeleton - ultrastructure
Actins
Actins - ultrastructure
Animals
Antigen presenting cells
Ascitic Fluid - metabolism
cdc42 GTP-Binding Protein
Cell Cycle Proteins - physiology
Cell Extracts - physiology
Cellular biology
Depolymerization
GTP-Binding Proteins - physiology
Guanosine 5'-O-(3-Thiotriphosphate) - pharmacology
Leukocytes
Listeria
Microfilaments
Microscopy, Electron
Neutrophils
Neutrophils - physiology
Nucleation
Particle Size
Polymerization
Polymers
Profilins
Proteins
Rabbits
Recombinant Proteins - metabolism
Spectrin - metabolism
T lymphocytes
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Summary:Cdc42, activated with GTPγS, induces actin polymerization in supernatants of lysed neutrophils. This polymerization, like that induced by agonists, requires elongation at filament barbed ends. To determine if creation of free barbed ends was sufficient to induce actin polymerization, free barbed ends in the form of spectrin-actin seeds or sheared F-actin filaments were added to cell supernatants. Neither induced polymerization. Furthermore, the presence of spectrin-actin seeds did not increase the rate of Cdc42-induced polymerization, suggesting that the presence of Cdc42 did not facilitate polymerization from spectrin-actin seeds such as might have been the case if Cdc42 inhibited capping or released G-actin from a sequestered pool. Electron microscopy revealed that Cdc42-induced filaments elongated rapidly, achieving a mean length greater than 1 μm in 15 s. The mean length of filaments formed from spectrin-actin seeds was <0.4 μm. Had spectrin-actin seeds elongated at comparable rates before they were capped, they would have induced longer filaments. There was little change in mean length of Cdc42-induced filaments between 15 s and 5 min, suggesting that the increase in F-actin over this time was due to an increase in filament number. These data suggest that Cdc42 induction of actin polymerization requires both creation of free barbed ends and facilitated elongation at these ends.
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ISSN:0021-9525
1540-8140
DOI:10.1083/jcb.142.4.1001