2017
Protein Tyrosine Phosphatase δ Mediates the Sema3A-Induced Cortical Basal Dendritic Arborization through the Activation of Fyn Tyrosine Kinase
Nakamura F, Okada T, Shishikura M, Uetani N, Taniguchi M, Yagi T, Iwakura Y, Ohshima T, Goshima Y, Strittmatter SM. Protein Tyrosine Phosphatase δ Mediates the Sema3A-Induced Cortical Basal Dendritic Arborization through the Activation of Fyn Tyrosine Kinase. Journal Of Neuroscience 2017, 37: 7125-7139. PMID: 28637841, PMCID: PMC6705738, DOI: 10.1523/jneurosci.2519-16.2017.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsCells, CulturedCerebral CortexDendritesEnzyme ActivationFemaleGene Expression Regulation, EnzymologicMaleMiceMice, Inbred C57BLMice, KnockoutMice, TransgenicNeuronal PlasticityProtein-Tyrosine KinasesProto-Oncogene Proteins c-fynReceptor-Like Protein Tyrosine Phosphatases, Class 2Semaphorin-3AConceptsCortical dendritic growthBasal dendritesCultured dorsal root ganglion neuronsCortical layer V neuronsPrimary cultured dorsal root ganglion (DRG) neuronsDorsal root ganglion neuronsWild-type cortical neuronsBasal dendritic arborizationLayer V neuronsAxon guidanceDouble heterozygous mutantsSpecific guidance cuesProtein tyrosine phosphatase δAxon guidance cuesPoor arborizationV neuronsGuidance cuesGanglion neuronsDendritic arborizationCortical neuronsMutant miceSemaphorin 3ASrc kinaseActivation of FynGrowth cone collapse response
2012
Axonal regeneration induced by blockade of glial inhibitors coupled with activation of intrinsic neuronal growth pathways
Wang X, Hasan O, Arzeno A, Benowitz LI, Cafferty WB, Strittmatter SM. Axonal regeneration induced by blockade of glial inhibitors coupled with activation of intrinsic neuronal growth pathways. Experimental Neurology 2012, 237: 55-69. PMID: 22728374, PMCID: PMC3418451, DOI: 10.1016/j.expneurol.2012.06.009.Peer-Reviewed Original ResearchConceptsRetinal ganglion cellsAxonal regenerationPharmacological approachesCrush injuryChondroitin sulfate proteoglycanInjury siteNeural repairOptic nerve crush injuryDorsal root ganglion neuronsNgr1-/- miceNerve crush injurySciatic nerve axotomySpinal cord injury sitePrimary afferent fibersEffective pharmacological approachSpinal cord injuryAdult mammalian neuronsIntrinsic growth potentialGlial inhibitorsTriple therapyNerve axotomyViral gene therapyWT miceAfferent fibersCNS injury
2011
A Multi-domain Fragment of Nogo-A Protein Is a Potent Inhibitor of Cortical Axon Regeneration via Nogo Receptor 1*
Huebner EA, Kim BG, Duffy PJ, Brown RH, Strittmatter SM. A Multi-domain Fragment of Nogo-A Protein Is a Potent Inhibitor of Cortical Axon Regeneration via Nogo Receptor 1*. Journal Of Biological Chemistry 2011, 286: 18026-18036. PMID: 21454605, PMCID: PMC3093876, DOI: 10.1074/jbc.m110.208108.Peer-Reviewed Original ResearchConceptsMature cortical neuronsCortical neuronsNogo-66Axon regenerationReceptor 1Central nervous system injuryDorsal root ganglion neuronsNogo-66 receptor 1Expression of PirBMature cortical culturesNogo receptor 1Nervous system injuryNogo-A proteinImmunoglobulin-like receptorsChick dorsal root ganglion neuronsFunctional recoverySystem injuryGanglion neuronsCortical culturesPredominant receptorNgR1Genetic deletionPirBCell surface receptorsNeurons
2009
Rho-Associated Kinase II (ROCKII) Limits Axonal Growth after Trauma within the Adult Mouse Spinal Cord
Duffy P, Schmandke A, Schmandke A, Sigworth J, Narumiya S, Cafferty WB, Strittmatter SM. Rho-Associated Kinase II (ROCKII) Limits Axonal Growth after Trauma within the Adult Mouse Spinal Cord. Journal Of Neuroscience 2009, 29: 15266-15276. PMID: 19955379, PMCID: PMC2855556, DOI: 10.1523/jneurosci.4650-09.2009.Peer-Reviewed Original ResearchMeSH KeywordsAmidesAnalysis of VarianceAnimalsAxonsBehavior, AnimalBrain InjuriesCA1 Region, HippocampalCells, CulturedCholera ToxinEnzyme InhibitorsGanglia, SpinalGene Expression RegulationMedian NeuropathyMiceMice, Inbred C57BLMice, KnockoutMyelin ProteinsNerve RegenerationNeuronsNogo ProteinsPyridinesReceptors, Calcitonin Gene-Related PeptideRhizotomyRho-Associated KinasesSpinal Cord InjuriesTime FactorsVersicansConceptsSpinal cordCNS traumaFunctional recoveryBasso Mouse Scale scoresSpinal Cord Injury StudyAxonal growthDorsal root entry zoneDorsal root ganglion neuronsAdult mouse spinal cordAxonal growth inhibitorsSpinal cord hemisectionRoot entry zoneSpinal cord injuryCaudal spinal cordMouse spinal cordDorsal hemisectionRaphespinal axonsDorsal rhizotomyCrush injuryCord hemisectionCorticospinal axonsChondroitin sulfate proteoglycanCord injuryGanglion neuronsInjury paradigms
2004
A Neutralizing Anti-Nogo66 Receptor Monoclonal Antibody Reverses Inhibition of Neurite Outgrowth by Central Nervous System Myelin*
Li W, Walus L, Rabacchi SA, Jirik A, Chang E, Schauer J, Zheng BH, Benedetti NJ, Liu BP, Choi E, Worley D, Silvian L, Mo W, Mullen C, Yang W, Strittmatter SM, Sah DW, Pepinsky B, Lee DH. A Neutralizing Anti-Nogo66 Receptor Monoclonal Antibody Reverses Inhibition of Neurite Outgrowth by Central Nervous System Myelin*. Journal Of Biological Chemistry 2004, 279: 43780-43788. PMID: 15297463, DOI: 10.1074/jbc.m401803200.Peer-Reviewed Original ResearchConceptsOligodendrocyte myelin glycoproteinRat dorsal root ganglion neuronsDorsal root ganglion neuronsMonoclonal antibodiesMyelin glycoproteinNeurite outgrowthMyelin proteinsUseful therapeutic approachCNS myelin substrateNogo66 receptorCentral nervous system myelinGanglion neuronsTherapeutic approachesCNS repairMyelin substrateCentral nervous system myelin proteinsInhibitory effectNgR1AntibodiesNeurite growthMyelinSystem myelinReverses inhibitionMolecular epitopes
1996
P2Y1 purinergic receptors in sensory neurons: contribution to touch-induced impulse generation.
Nakamura F, Strittmatter SM. P2Y1 purinergic receptors in sensory neurons: contribution to touch-induced impulse generation. Proceedings Of The National Academy Of Sciences Of The United States Of America 1996, 93: 10465-10470. PMID: 8816824, PMCID: PMC38408, DOI: 10.1073/pnas.93.19.10465.Peer-Reviewed Original ResearchMeSH KeywordsAdenosine TriphosphateAnimalsApyraseChickensFemaleGanglia, SpinalMembrane PotentialsMolecular Sequence DataNerve FibersNeurons, AfferentOocytesPhysical StimulationPurinergic P2 Receptor AgonistsPyridoxal PhosphateRatsReceptors, Purinergic P2Receptors, Purinergic P2X3Receptors, Purinergic P2Y1RNA, MessengerSciatic NerveSkinSuraminTime FactorsTranscription, GeneticXenopus laevisConceptsNerve endingsPurinergic receptorsSensory neuronsAction potentialsSmall fiber sensory neuronsDorsal root ganglion neuronsDistal nerve endingsSensory action potentialsPeripheral nerve endingsSensory nerve fibersP2 receptor agonistsP2Y1 purinergic receptorRelease of ATPP2 antagonistsGanglion neuronsReceptor agonistNerve fibersLight touchNeuronsXenopus laevis oocytesSomatic sensationsReceptorsImpulse generationExtracellular spaceLaevis oocytes
1995
Collapsin-induced growth cone collapse mediated by an intracellular protein related to UNC-33
Goshima Y, Nakamura F, Strittmatter P, Strittmatter S. Collapsin-induced growth cone collapse mediated by an intracellular protein related to UNC-33. Nature 1995, 376: 509-514. PMID: 7637782, DOI: 10.1038/376509a0.Peer-Reviewed Original ResearchMeSH KeywordsAmino Acid SequenceAnimalsBrainCaenorhabditis elegans ProteinsCell LineCell MembraneChick EmbryoGanglia, SpinalGlycoproteinsGTP-Binding ProteinsHelminth ProteinsIntercellular Signaling Peptides and ProteinsMolecular Sequence DataNerve Growth FactorsNerve Tissue ProteinsNeuritesNeuronsOocytesRecombinant Fusion ProteinsSemaphorin-3ASignal TransductionVirulence Factors, BordetellaXenopus laevisConceptsGrowth cone collapseDorsal root ganglion neuronsCollapsin response mediator proteinsCone collapseXenopus laevis oocyte expression systemChick nervous systemGanglion neuronsNervous systemOocyte expression systemUNC-33Inward currentsNeuronal proteinsAxonal pathfindingNeural developmentX. laevis oocytesGrowth conesLaevis oocytesIntracellular proteinsHeterotrimeric GTPMediator proteinsProteinIntracellular componentsNeurons