Target derived neurotrophins (NTs) are required both for survival of the axon that encounters these ligands and for survival of the remote cell body. Much progress has been made in understanding how NT signals promote cell body survival. However, survival or degeneration of axons is controlled by molecular components that overlap with, but are not identical to, those that regulate cell body survival and death. Therefore an important unresolved question is how target derived NTs engage regulatory components to foster axonal survival and prevent axonal degeneration during development and throughout life. In preliminary studies, my colleagues and I identified bclw (or bcl2l2) as the bcl2 family member critical for NT-dependent axonal viability. Bclw is the bcl2 family member that is enriched in axons, bclw prevents progressive axonal degeneration in mouse models, and bclw is neuroprotective against ?-amyloid toxicity. We demonstrated that bclw is a retrograde response gene (RRG), which is selectively upregulated by NT stimulation of distal axons. Surprisingly, mRNA for bclw is present in axons as well as in cell bodies, and NT stimulation of distal axons increases the levels of bclw mRNAs in both locations. To understand how NTs regulate axonal viability and prevent degeneration we will determine how NT stimulation of distal axons coordinately regulates transcription, transport and translation of bclw mRNA to adjust the level of axonal bclw, and thereby preserve the long axons connecting a functioning circuit. We have three aims to test our model for NT regulation of axonal survival pathways, and to probe the implications for neurologic disorders characterized by axonal degeneration.
Aim 1. To test the hypothesis that NT stimulation of axons promotes transcription and axonal transport of newly synthesized bclw mRNAs.
Aim 2. To test the hypothesis that the RNA binding protein SFPQ is critical for bclw regulation.
Aim 3. To test the hypothesis that bclw is locally translated in axons to promote viability of long axons. Together these studies will provide a new understanding of how NT signaling functions within the spatial constraints of the developing and mature nervous system. Recent studies have focused attention on the importance of axonal degeneration for degenerative disorders, including peripheral neuropathies, ALS and Alzheimer's disease;our studies will identify pathways that support axonal health and are likely to be affected in such disorders. Furthermore, interventions that engage these NT-dependent pathways and preserve connected neurons within a functional circuit have great therapeutic potential in diverse neurologic diseases.
Many degenerative disorders including Alzheimer's Disease and Sensory Neuropathies involve the dying back of axons before the changes in cell bodies. We have shown that Bclw is a pro-survival component that is found in the axons, and prevents axons from dying. In these studies, we will ask how levels of Bclw in axons are regulated by Nerve growth factors. Bclw has been shown to be protective against b-amyloid in Alzheimers'and to protect animals from neuropathy, therefore these studies may provide new approaches in these degenerative disorders.
| Pease-Raissi, Sarah E; Pazyra-Murphy, Maria F; Li, Yihang et al. (2017) Paclitaxel Reduces Axonal Bclw to Initiate IP3R1-Dependent Axon Degeneration. Neuron 96:373-386.e6 |
| Cosker, Katharina E; Fenstermacher, Sara J; Pazyra-Murphy, Maria F et al. (2016) The RNA-binding protein SFPQ orchestrates an RNA regulon to promote axon viability. Nat Neurosci 19:690-696 |
| Tasdemir-Yilmaz, Ozge E; Segal, Rosalind A (2016) There and back again: coordinated transcription, translation and transport in axonal survival and regeneration. Curr Opin Neurobiol 39:62-8 |
| Balastik, Martin; Zhou, Xiao Zhen; Alberich-Jorda, Meritxell et al. (2015) Prolyl Isomerase Pin1 Regulates Axon Guidance by Stabilizing CRMP2A Selectively in Distal Axons. Cell Rep 13:812-828 |
| Pease, Sarah E; Segal, Rosalind A (2014) Preserve and protect: maintaining axons within functional circuits. Trends Neurosci 37:572-82 |
| Cosker, Katharina E; Segal, Rosalind A (2014) Neuronal signaling through endocytosis. Cold Spring Harb Perspect Biol 6: |
| Cosker, Katharina E; Pazyra-Murphy, Maria F; Fenstermacher, Sara J et al. (2013) Target-derived neurotrophins coordinate transcription and transport of bclw to prevent axonal degeneration. J Neurosci 33:5195-207 |
| Fainzilber, Mike; Budnik, Vivian; Segal, Rosalind A et al. (2011) From synapse to nucleus and back again--communication over distance within neurons. J Neurosci 31:16045-8 |
| Courchesne, Stephanie L; Karch, Christoph; Pazyra-Murphy, Maria F et al. (2011) Sensory neuropathy attributable to loss of Bcl-w. J Neurosci 31:1624-34 |
| Courchesne, Stephanie L; Pazyra-Murphy, Maria F; Lee, Daniel J et al. (2011) Neuromuscular junction defects in mice with mutation of dynein heavy chain 1. PLoS One 6:e16753 |
Showing the most recent 10 out of 14 publications
