|Spatial regulation of protein kinase A signaling during growth cone guidance|
The protrusion, movement and guidance of neuronal growth cones are driven by actin cytoskeletal dynamics that respond to attractive or repulsive guidance cues. Studies using Xenopus spinal neurons have shown that the balance between growth cone attraction and repulsion is modulated by cAMP and the cAMP-dependent protein kinase (PKA). Recent results from our laboratory have shown that PKA signaling presides over the chemotactic migration of fibroblasts in a most intriguing way. Specifically, a subset of PKA regulatory subunits, as well as PKA activity, and the phosphorylation of a number of cytoskeletal PKA targets are all significantly enriched in protruding pseudopodia and lamellipodia. Moreover, both inhibition of PKA activity and inhibition of PKA interaction with AKAPs (A-kinase anchoring proteins) prevent pseudopod formation and inhibit chemotaxis. This suggests that the formation of protrusive structures during cell movement requires not only PKA activity, but the specific localization of PKA activity. Although AKAP-mediated PKA localization has been shown to be important for some aspects of neuronal function (e.g. ion channel regulation), and despite the central importance of PKA signaling for regulating growth cone guidance, there is little to no information regarding the role of spatial regulation of PKA in neurite outgrowth and growth cone motility. Therefore, we propose:
Specific Aim 1: To demonstrate the spatial regulation of PKA during neurite outgrowth;
Specific Aim 2: To investigate the mechanism of PKA localization in growth cones; and
Specific Aim 3: To assess the effects of disruption of PKA anchoring / localization neuritogenesis/axon guidance
Success in fulfilling these aims will provide important preliminary data that may implicate spatial regulation of PKA activity as an important and, heretofore, uninvestigated facet of growth cone guidance.
Last modified October 31 2006 04:11 PM