2023
Conditional Astrocyte Rac1KO Attenuates Hyperreflexia after Spinal Cord Injury
Benson C, Olson K, Patwa S, Kauer S, King J, Waxman S, Tan A. Conditional Astrocyte Rac1KO Attenuates Hyperreflexia after Spinal Cord Injury. Journal Of Neuroscience 2023, 44: e1670222023. PMID: 37963762, PMCID: PMC10851682, DOI: 10.1523/jneurosci.1670-22.2023.Peer-Reviewed Original ResearchConceptsSpinal cord injuryRate-dependent depressionΑ-motor neuronsGlutamate transporter 1Dendritic spine dysgenesisCord injurySpine dysgenesisDevelopment of SCIMild contusion spinal cord injuryAstrocytic glutamate transporter 1Glial-specific glutamate transporterContusion spinal cord injuryTransporter 1Development of hyperreflexiaMonosynaptic H-reflexDendritic spine densityPre-injury levelSpinal reflex circuitsVentral spinal cordReflex hyperexcitabilityHyperexcitability disordersFunctional recoveryGlutamate clearanceH-reflexVentral hornIncreased astrocytic GLT-1 expression in tripartite synapses is associated with SCI-induced hyperreflexia
Benson C, King J, Kauer S, Waxman S, Tan A. Increased astrocytic GLT-1 expression in tripartite synapses is associated with SCI-induced hyperreflexia. Journal Of Neurophysiology 2023, 130: 1358-1366. PMID: 37877184, PMCID: PMC10972632, DOI: 10.1152/jn.00234.2023.Peer-Reviewed Original ResearchConceptsSpinal cord injuryRate-dependent depressionTripartite synapsesGLT-1Astrocytic GLT-1 expressionChronic neurological complicationsGLT-1 expressionAstrocyte involvementChronic spasticityUninjured shamsNeurological complicationsNeuropathic painHyperexcitability disordersH-reflexPSD-95 proteinReactive astrocytesVentral hornCord injuryMuscle toneAstrocytes' roleSpinal cordSpinal circuitsSynaptic transmissionHyperreflexiaSpasticity
2014
Dendritic spine dysgenesis contributes to hyperreflexia after spinal cord injury
Bandaru SP, Liu S, Waxman SG, Tan AM. Dendritic spine dysgenesis contributes to hyperreflexia after spinal cord injury. Journal Of Neurophysiology 2014, 113: 1598-1615. PMID: 25505110, PMCID: PMC4346729, DOI: 10.1152/jn.00566.2014.Peer-Reviewed Original ResearchConceptsSpinal cord injuryLevel of injuryH-reflexCord injuryStretch reflexDendritic spinesSpinal cord motor systemSpine morphologyContusion spinal cord injuryExaggerated tendon jerksSpinal cord contributesRate-dependent depressionSpine profilesDendritic spine dysgenesisΑ-motor neuronsH-reflex testingTonic stretch reflexVelocity-dependent increaseAdult Sprague-DawleyM-wave responsesAbnormal dendritic spinesSpinal stretch reflexAbnormal spine morphologyDendritic spine morphologyReflex dysfunction
2012
Selective Corticospinal Tract Injury in the Rat Induces Primary Afferent Fiber Sprouting in the Spinal Cord and Hyperreflexia
Tan A, Chakrabarty S, Kimura H, Martin J. Selective Corticospinal Tract Injury in the Rat Induces Primary Afferent Fiber Sprouting in the Spinal Cord and Hyperreflexia. Journal Of Neuroscience 2012, 32: 12896-12908. PMID: 22973013, PMCID: PMC3499628, DOI: 10.1523/jneurosci.6451-11.2012.Peer-Reviewed Original ResearchMeSH KeywordsAfferent PathwaysAnimalsMaleNerve RegenerationNeuronal PlasticityPyramidal TractsRatsRats, Sprague-DawleyReflex, AbnormalConceptsCorticospinal tract injurySpinal cordCorticospinal tractProprioceptive afferentsAfferent fiber sproutingGray matter regionsFrequency-dependent depressionCorticospinal tract terminalsCervical spinal cordMechanisms of maladaptive plasticityMatter regionsSpinal cord projectionsSpinal cord injuryPyramidal tract sectionTract injurySpared sideAdult ratsFiber sproutingAfferent terminalsSpinal targetsMicroglial densityMuscle afferentsSpinal sensorimotor circuitsMaladaptive plasticityAfferents