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Inpp5f regulates CNS axon regeneration through phosphoinositide metabolism

$28,272F31FY2013NSNIH

Yale University, New Haven CT

Investigators

Abstract

DESCRIPTION (provided by applicant): Traumatic injury to the Central Nervous System (CNS) damages long-distance projections axons and disconnects pre-synaptic and post-synaptic neurons. Patients often suffer from permanent neurological deficits because severed CNS axons do not regenerate spontaneously in humans or other mammals. Understanding biological mechanisms that limit CNS axon regeneration holds promise for development of safe and effective therapeutics to treat traumatic CNS injury patients. This proposal is designed to characterize the role of INPP5F, a putative suppressor of CNS axon regeneration, in limiting recovery after optic nerve crush and spinal cord dorsal hemisection injury in mice. The proposed experiments use standard techniques in mouse surgery, immunohistochemistry, biochemistry, molecular cloning, and mouse behavioral assays. In addition, the proposed experiments will demonstrate the utility of a novel technique, in vivo retinal electroporation in adult mice, in discovering and dissecting genetic regulation of CNS axon regeneration. Knowledge generated from this proposal will help the field to evaluate the potential of INPP5F as a candidate therapeutic target in traumatic CNS injury treatment. Training provided by completing experiments in this proposal will be pivotal to prepare a young scientist for an independent career in understanding the neurobiology of CNS injury.

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