A GIT1/PIX/Rac/PAK Signaling Module Regulates Spine Morphogenesis and Synapse Formation through MLC

doi:10.1523/JNEUROSCI.3553-04.2005

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The Journal of Neuroscience, March 30, 2005, 25(13):3379-3388; doi:10.1523/JNEUROSCI.3553-04.2005

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Cellular/Molecular
A GIT1/PIX/Rac/PAK Signaling Module Regulates Spine Morphogenesis and Synapse Formation through MLC
Huaye Zhang, Donna J. Webb, Hannelore Asmussen, Shuang Niu, and Alan F. Horwitz
Department of Cell Biology, University of Virginia, Charlottesville, Virginia 22908

Three of seven recently identified genes mutated in nonsyndromicmental retardation are involved in Rho family signaling. Twoof the gene products, ${alpha}$ -p-21-activated kinase (PAK) interactingexchange factor ( ${alpha}$ PIX) and PAK3, form a complex with the synapticadaptor protein G-protein-coupled receptor kinase-interactingprotein 1 (GIT1). Using an RNA interference approach, we showthat GIT1 is critical for spine and synapse formation. We alsoshow that Rac is locally activated in dendritic spines usingfluorescence resonance energy transfer. This local activationof Rac is regulated by PIX, a Rac guanine nucleotide exchangefactor. PAK1 and PAK3 serve as downstream effectors of Rac inregulating spine and synapse formation. Active PAK promotesthe formation of spines and dendritic protrusions, which correlateswith an increase in the number of excitatory synapses. Theseeffects are dependent on the kinase activity of PAK, and PAKfunctions through phosphorylating myosin II regulatory lightchain (MLC). Activated MLC causes an increase in dendritic spineand synapse formation, whereas inhibiting myosin ATPase activityresults in decreased spine and synapse formation. Finally, bothactivated PAK and activated MLC can rescue the defects of GIT1knockdown, suggesting that PAK and MLC are downstream of GIT1in regulating spine and synapse formation. Our results pointto a signaling complex, consisting of GIT1, PIX, Rac, and PAK,that plays an essential role in the regulation of dendriticspine and synapse formation and provides a potential mechanismby which ${alpha}$ PIX and PAK3 mutations affect cognitive functions inmental retardation.

Key words: cytoskeleton; synaptogenesis; dendritic spines; Rac; GIT1; PAK; PIX; MLC

Received Aug 29, 2004; revised February 15, 2005; accepted February 16, 2005.

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