2023
Development of neural repair therapy for chronic spinal cord trauma: soluble Nogo receptor decoy from discovery to clinical trial
Howard E, Strittmatter S. Development of neural repair therapy for chronic spinal cord trauma: soluble Nogo receptor decoy from discovery to clinical trial. Current Opinion In Neurology 2023, 36: 516-522. PMID: 37865850, PMCID: PMC10841037, DOI: 10.1097/wco.0000000000001205.Peer-Reviewed Original ResearchConceptsSpinal cord injuryChronic cervical spinal cord injuryCervical spinal cord injuryRecent clinical trialsCentral nervous systemClinical trialsAnimal studiesNeural repairChronic spinal cord injuryIncomplete spinal cord injuryTraumatic spinal cord injuryAdult mammalian central nervous systemContusion spinal cord injuryTreatment-naïve patientsSpinal cord traumaMammalian central nervous systemNeural repair therapiesUpper extremity strengthNonhuman primate studiesReceptor 1 pathwayNeurological recoveryNeurological deficitsCord traumaMedical therapyChronic stage
2022
Rabphilin3A reduces integrin-dependent growth cone signaling to restrict axon regeneration after trauma
Sekine Y, Kannan R, Wang X, Strittmatter SM. Rabphilin3A reduces integrin-dependent growth cone signaling to restrict axon regeneration after trauma. Experimental Neurology 2022, 353: 114070. PMID: 35398339, PMCID: PMC9555232, DOI: 10.1016/j.expneurol.2022.114070.Peer-Reviewed Original ResearchConceptsAxon regenerationModerate spinal cord contusion injurySpinal cord contusion injuryTraumatic spinal cord injuryAdult mammalian central nervous systemGrowth conesRetinal ganglion cell axonsOptic nerve crushSpinal cord crush injuryGanglion cell axonsSpinal cord injuryMammalian central nervous systemCentral nervous systemCorticospinal axon regenerationContusion injuryAxonal sproutingCrush injuryNerve crushAxonal growth conesCord injuryAxon sproutingCell axonsProximal bodyNervous systemNeural repair
2017
Regulation of axonal regeneration by the level of function of the endogenous Nogo receptor antagonist LOTUS
Hirokawa T, Zou Y, Kurihara Y, Jiang Z, Sakakibara Y, Ito H, Funakoshi K, Kawahara N, Goshima Y, Strittmatter SM, Takei K. Regulation of axonal regeneration by the level of function of the endogenous Nogo receptor antagonist LOTUS. Scientific Reports 2017, 7: 12119. PMID: 28935984, PMCID: PMC5608707, DOI: 10.1038/s41598-017-12449-6.Peer-Reviewed Original ResearchConceptsSpinal cord injuryOptic nerve crushAxonal regenerationMotor recoveryNerve crushNeural repairRetinal ganglion cell axonal regenerationAdult mammalian central nervous systemIntrinsic motor recoverySpontaneous neural repairAxonal growth inhibitorsMammalian central nervous systemCentral nervous systemNon-permissive environmentLevel of functionUntreated miceFunctional recoveryCord injuryReceptor antagonistNeuronal overexpressionNervous systemGenetic deletionViral overexpressionCrushInhibitorsIdentification of Intrinsic Axon Growth Modulators for Intact CNS Neurons after Injury
Fink KL, López-Giráldez F, Kim IJ, Strittmatter SM, Cafferty WB. Identification of Intrinsic Axon Growth Modulators for Intact CNS Neurons after Injury. Cell Reports 2017, 18: 2687-2701. PMID: 28297672, PMCID: PMC5389739, DOI: 10.1016/j.celrep.2017.02.058.Peer-Reviewed Original ResearchConceptsSpinal cord injuryCentral nervous systemFunctional recoveryIntact neuronsAdult mammalian central nervous systemPartial spinal cord injuryInjury-induced sproutingUnilateral brainstem lesionsGreater functional recoverySpontaneous functional recoveryCorticospinal motor neuronsCorticospinal tract axonsMammalian central nervous systemWild-type miceNew synapse formationGrowth modulatorsAdjacent injuryBrainstem lesionsCord injuryFunctional deficitsIntact circuitryCNS neuronsMotor neuronsCircuit plasticityNervous system
2012
Myelin-derived ephrinB3 restricts axonal regeneration and recovery after adult CNS injury
Duffy P, Wang X, Siegel CS, Tu N, Henkemeyer M, Cafferty WB, Strittmatter SM. Myelin-derived ephrinB3 restricts axonal regeneration and recovery after adult CNS injury. Proceedings Of The National Academy Of Sciences Of The United States Of America 2012, 109: 5063-5068. PMID: 22411787, PMCID: PMC3323955, DOI: 10.1073/pnas.1113953109.Peer-Reviewed Original ResearchConceptsAxonal regenerationAxonal growthAdult mammalian central nervous systemAdult CNS injuryDorsal hemisection injurySpinal cord injuryMammalian central nervous systemWild-type miceCentral nervous systemCaudal spinal cordAxonal guidance cuesAxonal growth inhibitionLater time pointsGreater spasticityCNS traumaHemisection injuryCrush siteOptic nerveNeurological functionCNS injuryCord injuryTransection modelGrowth restrictionSpinal cordTraumatic injury
2001
Nogo: A Molecular Determinant of Axonal Growth and Regeneration
Grandpré T, Strittmatter S. Nogo: A Molecular Determinant of Axonal Growth and Regeneration. The Neuroscientist 2001, 7: 377-386. PMID: 11597097, DOI: 10.1177/107385840100700507.Peer-Reviewed Original ResearchConceptsCentral nervous systemCNS environmentNervous systemAdult mammalian central nervous systemEnhanced axonal regenerationPersistent functional deficitsMammalian central nervous systemPeripheral nervous systemNeurite outgrowth inhibitorIntegral membrane proteinsCNS traumaFunctional recoveryReactive astrocytesVivo neutralizationCNS injuryAxonal regenerationFunctional deficitsGlial scarNonpermissive natureOutgrowth inhibitorCNS axonsAxonal growthAxonal elongationMembrane proteinsAxon elongation