RAC Regulation of Actin Polymerization and Proliferation by a Pathway Distinct from Jun Kinase

Tom Joneson; Michele McDonough; Dafna Bar‐Sagi; Linda Van Aelst

doi:10.1126/science.274.5291.1374

Abstract

The RAC guanine nucleotide binding proteins regulate multiple biological activities, including actin polymerization, activation of the Jun kinase (JNK) cascade, and cell proliferation. RAC effector loop mutants were identified that separate the ability of RAC to interact with different downstream effectors. One mutant of activated human RAC protein, RAC V12H40 (with valine and histidine substituted at position 12 and 40, respectively), was defective in binding to PAK3, a Ste20-related p21-activated kinase (PAK), but bound to POR1, a RAC-binding protein. This mutant failed to stimulate PAK and JNK activity but still induced membrane ruffling and mediated transformation. A second mutant, RAC V12L37 (with leucine substituted at position 37), which bound PAK but not POR1, induced JNK activation but was defective in inducing membrane ruffling and transformation. These results indicate that the effects of RAC on the JNK cascade and on actin polymerization and cell proliferation are mediated by distinct effector pathways that diverge at the level of RAC itself.

Keywords

Membrane rufflingCell biologyEffectorRac GTP-Binding ProteinsKinaseBiologyChemistrySignal transductionBiochemistryCellCytoskeletonRAC1

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Publication Info

Year: 1996
Type: article
Volume: 274
Issue: 5291
Pages: 1374-1376
Citations: 260
Access: Closed

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APA Style

                            
                                
                                    Tom Joneson, 
                                
                                    Michele McDonough, 
                                
                                    Dafna Bar‐Sagi
                                
                                et al.
                            
                            (1996). 
                            RAC Regulation of Actin Polymerization and Proliferation by a Pathway Distinct from Jun Kinase. 
                            Science
                            , 274
                            (5291)
                            , 1374-1376.
                            https://doi.org/10.1126/science.274.5291.1374
                        

Identifiers

DOI: 10.1126/science.274.5291.1374