Two Phases of Actin Polymerization Display Different Dependences on PI(3,4,5)P3 Accumulation and Have Unique Roles during Chemotaxis

doi:10.1091/mbc.E03-05-0339

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MBC in Press, published online ahead of print October 31, 2003
Mol. Biol. Cell 10.1091/mbc.E03-05-0339

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Submitted on May 28, 2003
Revised on October 7, 2003
Accepted on October 10, 2003

Two Phases of Actin Polymerization Display Different Dependences on PI(3,4,5)P₃ Accumulation and Have Unique Roles during Chemotaxis

Lingfeng Chen¹, Chris Janetopoulos¹, Yi Elaine Huang¹, Miho Iijima¹, Jane Borleis¹, and Peter N. Devreotes¹^*

¹ Department of Cell Biology, Johns Hopkins University, School of Medicine, Baltimore, MD, 21205

^* Corresponding author. E-mail address: pnd{at}jhmi.edu.

The directional movement of cells in chemoattractant gradients requiressophisticated control of the actin cytoskeleton. Uniform exposureof D. discoideum amoebae as well as mammalian leukocytes tochemoattractant triggers two phases of actin polymerization.In the initial rapid phase, motility stops and the cell roundsup. During the second slow phase, pseudopodia are extended from localregions of the cell perimeter. These responses are highly correlatedwith temporal and spatial accumulations of PI(3,4,5)P₃/PI(3,4)P₂reflected by the translocation of specific PH domains to themembrane. The slower phase of PI accumulation and actin polymerizationis more prominent in less differentiated, unpolarized cells,is selectively increased by disruption of PTEN, and is relativelymore sensitive to perturbations of PI3K. Optimal levels of thesecond responses allow the cell to respond rapidly to switchesin gradient direction by extending lateral pseudopods. Consequently,PI3K inhibitors impair chemotaxis in wild-type cells but partiallyrestore polarity and chemotactic response in pten^- cells. Surprisingly,the fast phase of PI(3,4,5)P₃ accumulation and actin polymerization,which is relatively resistant to PI3K inhibition, can supportinefficient but reasonably accurate chemotaxis.

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