2020
Gab1 mediates PDGF signaling and is essential to oligodendrocyte differentiation and CNS myelination
Zhou L, Shao C, Xie Y, Wang N, Xu S, Luo B, Wu Z, Ke Y, Qiu M, Shen Y. Gab1 mediates PDGF signaling and is essential to oligodendrocyte differentiation and CNS myelination. ELife 2020, 9: e52056. PMID: 31944179, PMCID: PMC6984811, DOI: 10.7554/elife.52056.Peer-Reviewed Original ResearchMeSH KeywordsAdaptor Proteins, Signal TransducingAnimalsCateninsCell DifferentiationCell LineageCentral Nervous SystemGene Expression RegulationMiceMice, KnockoutOligodendrocyte Precursor CellsOligodendrogliaPlatelet-Derived Growth FactorProtein-Tyrosine KinasesReceptors, Growth FactorRNA, Small InterferingSignal TransductionTranscription FactorsTranscriptomeConceptsPlatelet-derived growth factorCentral nervous system myelinDownstream targetsPlatelet-derived growth factor stimulationPDGF SignalingPlatelet-derived growth factor signalingReceptor tyrosine kinasesAdaptor proteinCentral nervous system hypomyelinationGab1Nuclear accumulationOligodendrocyte precursor cellsTyrosine kinaseCentral nervous systemOligodendrocyte precursor cell differentiationConditional deletionOL lineage cellsOligodendrocyte differentiationDifferentiationSteady-state numberB-cateninPrecursor cellsLineage cellsTrophic supportGrowth factor
2010
Slowly Progressive Axonal Degeneration in a Rat Model of Chronic, Nonimmune-Mediated Demyelination
Wilkins A, Kondo Y, Song J, Liu S, Compston A, Black J, Waxman S, Duncan I. Slowly Progressive Axonal Degeneration in a Rat Model of Chronic, Nonimmune-Mediated Demyelination. Journal Of Neuropathology & Experimental Neurology 2010, 69: 1256-1269. PMID: 21107138, DOI: 10.1097/nen.0b013e3181ffc317.Peer-Reviewed Original ResearchConceptsCentral nervous systemAxonal lossAxonal degenerationAxonal pathologyTrophic supportEarly axonal lossProgressive axonal lossProgressive axonal degenerationWhite matter tractsTaiep mutant ratNerve countsWild-type controlsChronic demyelinationNeurologic disabilityMyelin lossSignificant inflammationRat modelOligodendrocyte dysfunctionImmunohistochemical analysisTaiep ratsNervous systemCNS regionsAxonal transportMutant ratsOligodendrocyte lineage
2009
Unique in vivo properties of olfactory ensheathing cells that may contribute to neural repair and protection following spinal cord injury
Kocsis JD, Lankford KL, Sasaki M, Radtke C. Unique in vivo properties of olfactory ensheathing cells that may contribute to neural repair and protection following spinal cord injury. Neuroscience Letters 2009, 456: 137-142. PMID: 19429149, PMCID: PMC2713444, DOI: 10.1016/j.neulet.2008.08.093.Peer-Reviewed Original ResearchConceptsSpinal cord injuryCord injuryLow-affinity NGF receptorSchwann cell transplantationSignificant functional improvementSpinal cord resultsOlfactory receptor axonsPrecise cellular mechanismsCord resultsCell transplantationFunctional outcomeSynaptic contactsAxonal regenerationNasal mucosaFunctional improvementSpinal cordGlial cellsOlfactory bulbReceptor axonsTrophic supportNGF receptorAnimal modelsNeural repairTherapeutic candidateOECs
2000
Excitability changes of dorsal root axons following nerve injury: implications for injury-induced changes in axonal Na+ channels
Nonaka T, Honmou O, Sakai J, Hashi K, Kocsis J. Excitability changes of dorsal root axons following nerve injury: implications for injury-induced changes in axonal Na+ channels. Brain Research 2000, 859: 280-285. PMID: 10719075, DOI: 10.1016/s0006-8993(00)01979-x.Peer-Reviewed Original ResearchConceptsDorsal root axonsNerve injuryDorsal rootsAction potentialsCutaneous afferent axonsSciatic nerve ligationAfferent cell bodiesInjury-induced changesRat dorsal rootSucrose gap chamberTarget disconnectionNerve ligationExcitability changesSpinal cordAfferent axonsTrophic supportRoot ligationRefractory periodCell bodiesElectrophysiological recordingsAxonsInjuryDepolarizationLigationPrevious studies
1990
Trophic influence of the distal nerve segment on GABAA receptor expression in axotomized adult sensory neurons
Bhisitkul R, Kocsis J, Gordon T, Waxman S. Trophic influence of the distal nerve segment on GABAA receptor expression in axotomized adult sensory neurons. Experimental Neurology 1990, 109: 273-278. PMID: 2170161, DOI: 10.1016/s0014-4886(05)80017-2.Peer-Reviewed Original ResearchConceptsDistal nerve segmentsGamma-aminobutyric acidNerve segmentsSciatic nerveReceptor expressionSensory neuronsTrophic supportGABAA receptor agonist muscimolDorsal root ganglion neuronsAxotomized sensory neuronsReactive Schwann cellsGABAA receptor expressionAdult sensory neuronsReceptor agonist muscimolExpression of receptorsPeripheral target tissuesGABA receptor expressionDorsal root fibersGABA receptor sensitivityEnd organ innervationPostoperative dayNerve crushNerve transectionCrush siteDistal stump
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