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Abstract
Ras and Rho family GTPases have been ascribed important roles in signalling pathways determining cellular morphology and growth. Here we investigated the roles of the GTPases Ras, Cdc42, Rac1, and Rho and that of phosphatidylinositol 3-kinase (PI 3-kinase) in the pathway leading from serum starvation to neurite outgrowth in N1E-115 neuroblastoma cells. Serum-starved cells grown on a laminin matrix exhibited integrin-dependent neurite outgrowth. Expression of dominant negative mutants of Ras, PI 3-kinase, Cdc42, or Rac1 all blocked this neurite outgrowth, while constitutively activated mutants of Ras, PI 3-kinase, or Cdc42 were each sufficient to promote outgrowth even in the presence of serum. A RasH40C;G12V double mutant which binds preferentially to PI 3-kinase also promoted neurite formation. Activated RasG12V-induced outgrowth required PI 3-kinase activity, but activated PI 3-kinase-induced outgrowth did not require Ras activity. Although activated Rac1 by itself did not induce neurites, neurite outgrowth induced by activated Cdc42G12Vwas Rac1 dependent. Cdc42G12V-induced neurites appeared to lose their normal polarization, almost doubling the average number of neurites produced by a single cell. Outgrowth induced by activated Ras or PI 3-kinase required both Cdc42 and Rac1 activity, but Cdc42G12V-induced outgrowth did not need Ras or PI 3-kinase activity. Active RhoG14V reduced outgrowth promoted by RasG12V. Finally, expression of dominant negative Jun N-terminal kinase or extracellular signal-regulated kinase did not inhibit outgrowth, suggesting these pathways are not essential for this process. Our results suggest a hierarchy of signalling where Ras signals through PI 3-kinase to Cdc42 and Rac1 activation (and Rho inactivation), culminating in neurite outgrowth. Thus, in the absence of serum factors, Ras may initiate cell cycle arrest and terminal differentiation in N1E-115 neuroblastoma cells.
ACKNOWLEDGMENTS
We thank Julian Downward for the Ras and PI 3-kinase expression vectors, Chris Marshall for the MEK-AL vectors, James Woodgett for the SEK-AL vector, John-Claud Martinou and Antony Nichols for the GFP vectors, Ed Manser and Tom Leung for the HA-tagged Rho family vectors, Stefan Wennstrom for the p110 antibody, and Nansi Cann and Kate Marler for expert help.
We thank the Glaxo-Singapore Research Fund for support.