2011
Cartilage Acidic Protein–1B (LOTUS), an Endogenous Nogo Receptor Antagonist for Axon Tract Formation
Sato Y, Iketani M, Kurihara Y, Yamaguchi M, Yamashita N, Nakamura F, Arie Y, Kawasaki T, Hirata T, Abe T, Kiyonari H, Strittmatter SM, Goshima Y, Takei K. Cartilage Acidic Protein–1B (LOTUS), an Endogenous Nogo Receptor Antagonist for Axon Tract Formation. Science 2011, 333: 769-773. PMID: 21817055, PMCID: PMC3244695, DOI: 10.1126/science.1204144.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAxonsBinding SitesCalcium-Binding ProteinsCell LineCells, CulturedGPI-Linked ProteinsGrowth ConesHumansImmunohistochemistryLigandsMiceMice, Inbred ICRMyelin ProteinsNogo ProteinsNogo Receptor 1Olfactory PathwaysProsencephalonProtein BindingReceptors, Cell SurfaceSignal TransductionConceptsTract formationNogo receptor 1Axon growth inhibitorsProtein 1BEndogenous antagonismAxon tract formationReceptor antagonistGrowth cone collapseAxonal projectionsCircuitry formationNeural circuitry formationMouse brainReceptor 1LOT formationNeural regenerationNgR1Key moleculesCone collapseMiceFluorophore-assisted light inactivationGrowth inhibitorAntagonistBrainMyelinNogoMembrane-type Matrix Metalloproteinase-3 Regulates Neuronal Responsiveness to Myelin through Nogo-66 Receptor 1 Cleavage*
Ferraro GB, Morrison CJ, Overall CM, Strittmatter SM, Fournier AE. Membrane-type Matrix Metalloproteinase-3 Regulates Neuronal Responsiveness to Myelin through Nogo-66 Receptor 1 Cleavage*. Journal Of Biological Chemistry 2011, 286: 31418-31424. PMID: 21768085, PMCID: PMC3173120, DOI: 10.1074/jbc.m111.249169.Peer-Reviewed Original ResearchConceptsMatrix metalloproteinase-3Primary neuronsMetalloproteinase-3Neuronal responsesSH-SY5Y neuroblastoma cellsMetalloproteinase-dependent mannerNeuronal responsivenessAxonal regrowthCortical neuronsNeuronal knockdownNgR1Receptor 1Neuroblastoma cellsNeuronsCell surfaceMT3-MMPMyelinSpecific metalloproteinasesGlycosylphosphatidylinositol-anchored receptorInhibitorsPhysiological consequencesCleavage fragmentsCleavage-resistant formMetalloproteinasesReceptorsMyelin associated inhibitors: A link between injury-induced and experience-dependent plasticity
Akbik F, Cafferty WB, Strittmatter SM. Myelin associated inhibitors: A link between injury-induced and experience-dependent plasticity. Experimental Neurology 2011, 235: 43-52. PMID: 21699896, PMCID: PMC3189418, DOI: 10.1016/j.expneurol.2011.06.006.Peer-Reviewed Original ResearchConceptsExperience-dependent plasticityAnatomical rearrangementsNogo-66 receptor 1Spinal cord injuryNeurologic recoveryFunctional recoveryInciting stimulusCNS injuryCord injuryAxonal regenerationAdult CNSInjury studiesAnimal modelsReceptor 1Common receptorPaired-ImmunoglobulinMyelinInhibitorsInjuryAnatomical growthCNSReceptorsWide spectrumExtracellular matrixGrowth inhibitor
2008
Axonal growth therapeutics: regeneration or sprouting or plasticity?
Cafferty WB, McGee AW, Strittmatter SM. Axonal growth therapeutics: regeneration or sprouting or plasticity? Trends In Neurosciences 2008, 31: 215-220. PMID: 18395807, PMCID: PMC2678051, DOI: 10.1016/j.tins.2008.02.004.Peer-Reviewed Original ResearchConceptsAxonal growthAstroglial scarHigh clinical significanceFunctional recoveryNeurological injuryInciting eventFunctional deficitsSpinal cordClinical significanceAdult brainLoss of functionCell lossInhibitory factorAxonal connectivityAxonal anatomyAxonal extensionMolecular interventionsMyelinScarCordInjuryBrain
2005
Experience-Driven Plasticity of Visual Cortex Limited by Myelin and Nogo Receptor
McGee AW, Yang Y, Fischer QS, Daw NW, Strittmatter SM. Experience-Driven Plasticity of Visual Cortex Limited by Myelin and Nogo Receptor. Science 2005, 309: 2222-2226. PMID: 16195464, PMCID: PMC2856689, DOI: 10.1126/science.1114362.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsChondroitin Sulfate ProteoglycansDarknessDominance, OcularElectrophysiologyGamma-Aminobutyric AcidGene TargetingGPI-Linked ProteinsMiceMice, Inbred C57BLMutationMyelin Basic ProteinMyelin ProteinsMyelin SheathMyelin-Associated GlycoproteinNeuritesNeuronal PlasticityNeuronsNogo ProteinsNogo Receptor 1Photic StimulationReceptors, Cell SurfaceSignal TransductionVisual CortexConceptsOcular dominanceOcular dominance plasticityNogo-66 receptorExperience-dependent plasticityPostnatal critical periodCritical periodFunctional recoveryAxonal regenerationMonocular deprivationNogo receptorDays postnatalVisual cortexNeural circuitryPathological traumaJuvenile ageMyelinReceptorsNGRPlasticityPostnatalCortexOMgpTraumaNogoCessation
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
2003
The Nogo-66 receptor: focusing myelin inhibition of axon regeneration
McGee AW, Strittmatter SM. The Nogo-66 receptor: focusing myelin inhibition of axon regeneration. Trends In Neurosciences 2003, 26: 193-198. PMID: 12689770, DOI: 10.1016/s0166-2236(03)00062-6.Peer-Reviewed Original ResearchMeSH KeywordsAcute-Phase ProteinsAnimalsAxonsCells, CulturedGPI-Linked ProteinsHumansIn Vitro TechniquesMiceMyelin ProteinsMyelin SheathMyelin-Associated GlycoproteinMyelin-Oligodendrocyte GlycoproteinNerve RegenerationNeural InhibitionNeuronal PlasticityNogo ProteinsNogo Receptor 1RatsReceptor, Nerve Growth FactorReceptors, Cell SurfaceReceptors, Nerve Growth FactorSignal TransductionConceptsNogo-66 receptorMembrane protein NogoSpinal cord injuryFunctional recoveryCord injuryAxonal regrowthSecond messenger pathwaysProtein NogoAdult CNSAxon regenerationMyelin inhibitionAxonal outgrowthAdditional studiesCNS myelinMyelinNeurite elongationPhysiological roleReceptorsMolecular determinantsInhibitorsInhibitionNGRCurrent understandingRho Kinase Inhibition Enhances Axonal Regeneration in the Injured CNS
Fournier AE, Takizawa BT, Strittmatter SM. Rho Kinase Inhibition Enhances Axonal Regeneration in the Injured CNS. Journal Of Neuroscience 2003, 23: 1416-1423. PMID: 12598630, PMCID: PMC6742251, DOI: 10.1523/jneurosci.23-04-01416.2003.Peer-Reviewed Original ResearchMeSH KeywordsADP Ribose TransferasesAmidesAnimalsAxonsBotulinum ToxinsCells, CulturedChick EmbryoEnzyme InhibitorsFemaleGanglia, SpinalIntracellular Signaling Peptides and ProteinsMotor ActivityMyelin ProteinsNerve RegenerationNeuritesNogo ProteinsPC12 CellsProtein Serine-Threonine KinasesPyridinesRatsRats, Sprague-DawleyRho GTP-Binding ProteinsRho-Associated KinasesSpinal Cord InjuriesConceptsAxonal regenerationAdult ratsNeurite outgrowthCorticospinal tract lesionsNeurite outgrowth inhibitorChick DRG neuronsRho-kinase inhibitionCST fibersDRG neuronsCST lesionLocomotor recoveryTract lesionsSpinal cordOutgrowth inhibitorInhibits neurite outgrowthNogo-66Activity levelsMyelinKinase inhibitionLesionsActivation of RhoRatsC3 transferaseInhibition of p160ROCKInhibitors
2002
Truncated Soluble Nogo Receptor Binds Nogo-66 and Blocks Inhibition of Axon Growth by Myelin
Fournier AE, Gould GC, Liu BP, Strittmatter SM. Truncated Soluble Nogo Receptor Binds Nogo-66 and Blocks Inhibition of Axon Growth by Myelin. Journal Of Neuroscience 2002, 22: 8876-8883. PMID: 12388594, PMCID: PMC6757674, DOI: 10.1523/jneurosci.22-20-08876.2002.Peer-Reviewed Original ResearchMeSH KeywordsAmino Acid SequenceAnimalsAxonsCell LineChick EmbryoGPI-Linked ProteinsGrowth ConesHumansKidneyMiceMolecular Sequence DataMutagenesis, Site-DirectedMyelin ProteinsMyelin SheathNeuritesNogo ProteinsNogo Receptor 1Peptide FragmentsProtein BindingProtein Structure, TertiaryReceptors, Cell SurfaceRepetitive Sequences, Amino AcidRetinaSequence DeletionSignal TransductionSolubilityConceptsChick retinal ganglion cellsRetinal ganglion cellsOutgrowth inhibitionMechanism of NogoGanglion cellsNogo receptorOutgrowth inhibitorViral infectionMyelin inhibitionInhibitory signalingNogo-66Axon growthCNS myelinAxon outgrowthMyelinRegenerative growthNogoCOS-7 cellsInhibitionAlkaline phosphataseReceptorsNGRMyelin-Associated Glycoprotein as a Functional Ligand for the Nogo-66 Receptor
Liu BP, Fournier A, GrandPré T, Strittmatter SM. Myelin-Associated Glycoprotein as a Functional Ligand for the Nogo-66 Receptor. Science 2002, 297: 1190-1193. PMID: 12089450, DOI: 10.1126/science.1073031.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAxonsBinding SitesChick EmbryoCloning, MolecularCOS CellsGanglia, SpinalGene LibraryGPI-Linked ProteinsLigandsMiceMyelin ProteinsMyelin-Associated GlycoproteinNerve RegenerationNeuritesNeuronsNogo ProteinsNogo Receptor 1Peptide FragmentsPhosphatidylinositol Diacylglycerol-LyaseProtein Structure, TertiaryReceptors, Cell SurfaceRecombinant Fusion ProteinsSialic AcidsTransfectionType C PhospholipasesChapter 25 Nogo and the Nogo-66 receptor
Fournier AE, GrandPré T, Gould G, Wang X, Strittmatter SM. Chapter 25 Nogo and the Nogo-66 receptor. Progress In Brain Research 2002, 137: 361-369. PMID: 12440378, DOI: 10.1016/s0079-6123(02)37027-4.Peer-Reviewed Original ResearchConceptsNogo-66 receptorAxonal regenerationNogo-66Oligodendrocyte myelin glycoproteinAxonal inhibitionAdult vertebrate CNSUnresponsive neuronsChondroitin sulfate proteoglycanCentral nervous system myelinCNS injuryReceptor expressionAxon regenerationMyelin inhibitionMyelin glycoproteinReceptor componentsNogoReceptorsSystem myelinAxonal surfaceSulfate proteoglycanNeuronsInhibitionMyelinVertebrate CNSHigh affinity
1993
Mediation by G Proteins of Signals That Cause Collapse of Growth Cones
Igarashi M, Strittmatter S, Vartanian T, Fishman M. Mediation by G Proteins of Signals That Cause Collapse of Growth Cones. Science 1993, 259: 77-79. PMID: 8418498, DOI: 10.1126/science.8418498.Peer-Reviewed Original Research