
Axonal regrowth is crucial for recovery from CNS injury but is severely restricted in adult mammals. We used a genome-wide loss-of-function screen for factors limiting axonal regeneration from cerebral cortical neurons in vitro. Knockdown of 16,007 individual genes identified 580 significant phenotypes. These molecules share no significant overlap with those suggested by previous expression profiles. There is enrichment for genes in pathways related to transport, receptor binding, and cytokine signaling, including Socs4 and Ship2. Among transport-regulating proteins, Rab GTPases are prominent. In vivo assessment with C. elegans validates a cell-autonomous restriction of regeneration by Rab27. Mice lacking Rab27b show enhanced retinal ganglion cell axon regeneration after optic nerve crush and greater motor function and raphespinal sprouting after spinal cord trauma. Thus, a comprehensive functional screen reveals multiple pathways restricting axonal regeneration and neurological recovery after injury.
Central Nervous System, Mice, Knockout, Retinal Ganglion Cells, Genome, QH301-705.5, Optic Nerve, Suppressor of Cytokine Signaling Proteins, Recovery of Function, Axons, Nerve Regeneration, Mice, Inbred C57BL, Mice, rab GTP-Binding Proteins, Animals, Female, Gene Regulatory Networks, RNA Interference, Biology (General), RNA, Small Interfering, Caenorhabditis elegans, Caenorhabditis elegans Proteins, Spinal Cord Injuries
Central Nervous System, Mice, Knockout, Retinal Ganglion Cells, Genome, QH301-705.5, Optic Nerve, Suppressor of Cytokine Signaling Proteins, Recovery of Function, Axons, Nerve Regeneration, Mice, Inbred C57BL, Mice, rab GTP-Binding Proteins, Animals, Female, Gene Regulatory Networks, RNA Interference, Biology (General), RNA, Small Interfering, Caenorhabditis elegans, Caenorhabditis elegans Proteins, Spinal Cord Injuries
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