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Brain Injury-Induced Synaptic Reorganization In Hilar Inhibitory Neurons Is Differentially Suppressed By Rapamycin, Corwin R. Butler, Jeffery A. Boychuk, Bret N. Smith
Brain Injury-Induced Synaptic Reorganization In Hilar Inhibitory Neurons Is Differentially Suppressed By Rapamycin, Corwin R. Butler, Jeffery A. Boychuk, Bret N. Smith
Physiology Faculty Publications
Following traumatic brain injury (TBI), treatment with rapamycin suppresses mammalian (mechanistic) target of rapamycin (mTOR) activity and specific components of hippocampal synaptic reorganization associated with altered cortical excitability and seizure susceptibility. Reemergence of seizures after cessation of rapamycin treatment suggests, however, an incomplete suppression of epileptogenesis. Hilar inhibitory interneurons regulate dentate granule cell (DGC) activity, and de novo synaptic input from both DGCs and CA3 pyramidal cells after TBI increases their excitability but effects of rapamycin treatment on the injury-induced plasticity of interneurons is only partially described. Using transgenic mice in which enhanced green fluorescent protein (eGFP) is expressed in …