2023
Nogo receptor-Fc delivered by haematopoietic cells enhances neurorepair in a multiple sclerosis model
Ye S, Theotokis P, Lee J, Kim M, Nheu D, Ellen O, Bedford T, Ramanujam P, Wright D, McDonald S, Alrehaili A, Bakhuraysah M, Kang J, Siatskas C, Tremblay C, Curtis D, Grigoriadis N, Monif M, Strittmatter S, Petratos S. Nogo receptor-Fc delivered by haematopoietic cells enhances neurorepair in a multiple sclerosis model. Brain Communications 2023, 5: fcad108. PMID: 37091588, PMCID: PMC10116608, DOI: 10.1093/braincomms/fcad108.Peer-Reviewed Original ResearchExperimental autoimmune encephalomyelitisAutoimmune encephalomyelitisHaematopoietic stem cellsFc fusion proteinMultiple sclerosisAnimal modelsExperimental autoimmune encephalomyelitis lesionsCNS-infiltrating macrophagesStem cellsMultiple sclerosis modelInflammatory cell infiltrateNogo receptor 1Spinal cord injuryContext of neuroinflammationRecipient female miceImmune cell lineagesHigh-affinity receptorDisease-specific mannerDifferentiated phagocytesNeurological recoveryExtensive demyelinationAxonal damageCell infiltrateCNS lesionsNeurological decline
2020
Nogo receptor decoy promotes recovery and corticospinal growth in non-human primate spinal cord injury
Wang X, Zhou T, Maynard GD, Terse PS, Cafferty WB, Kocsis JD, Strittmatter SM. Nogo receptor decoy promotes recovery and corticospinal growth in non-human primate spinal cord injury. Brain 2020, 143: 1697-1713. PMID: 32375169, PMCID: PMC7850069, DOI: 10.1093/brain/awaa116.Peer-Reviewed Original ResearchConceptsPrimate spinal cord injurySpinal cord injuryCord injuryFemale African green monkeysTreatment-related adverse eventsChronic neurological deficitsNogo receptor 1Left motor cortexRecovery of functionPreclinical rodent modelsSpinal cord injury animalsAfrican green monkeysRaphespinal fibersAdverse eventsCervical cordNeurological deficitsSurgical complicationsCNS traumaTreatment cessationCorticospinal axonsLumbar catheterInjury animalsNeural recoverySpontaneous feedingLateral hemisection
2019
Limiting Neuronal Nogo Receptor 1 Signaling during Experimental Autoimmune Encephalomyelitis Preserves Axonal Transport and Abrogates Inflammatory Demyelination
Lee JY, Kim MJ, Thomas S, Oorschot V, Ramm G, Aui PM, Sekine Y, Deliyanti D, Wilkinson-Berka J, Niego B, Harvey AR, Theotokis P, McLean C, Strittmatter SM, Petratos S. Limiting Neuronal Nogo Receptor 1 Signaling during Experimental Autoimmune Encephalomyelitis Preserves Axonal Transport and Abrogates Inflammatory Demyelination. Journal Of Neuroscience 2019, 39: 5562-5580. PMID: 31061088, PMCID: PMC6616297, DOI: 10.1523/jneurosci.1760-18.2019.Peer-Reviewed Original ResearchMeSH KeywordsAdultAgedAged, 80 and overAnimalsAxonal TransportAxonsCells, CulturedEncephalomyelitis, Autoimmune, ExperimentalFemaleHumansIntercellular Signaling Peptides and ProteinsKinesinsMaleMiceMice, Inbred C57BLMiddle AgedMyelin SheathNerve Tissue ProteinsNogo Receptor 1Retinal Ganglion CellsSignal TransductionConceptsExperimental autoimmune encephalomyelitisCollapsin response mediator protein 2Optic nerveAxonal degenerationMultiple sclerosisAxonal vesicular transportAutoimmune encephalomyelitisInflammatory demyelinationAxonal integritySeverity of EAECre deletionAxonal transportRetinal ganglion cell axonsAxonal motor proteinsEAE-induced miceImmune-mediated destructionProgressive multiple sclerosisNeuron-specific deletionNogo receptor 1Ganglion cell axonsAnterograde transportFlx/Response mediator protein 2Adeno-associated virus serotype 2Phosphorylation of CRMP2Systematic and standardized comparison of reported amyloid-β receptors for sufficiency, affinity, and Alzheimer's disease relevance
Smith LM, Kostylev MA, Lee S, Strittmatter SM. Systematic and standardized comparison of reported amyloid-β receptors for sufficiency, affinity, and Alzheimer's disease relevance. Journal Of Biological Chemistry 2019, 294: 6042-6053. PMID: 30787106, PMCID: PMC6463724, DOI: 10.1074/jbc.ra118.006252.Peer-Reviewed Original ResearchConceptsAlzheimer's diseaseAD brainLeukocyte immunoglobulin-like receptorsNogo receptor 1Human AD brainsImmunoglobulin-like receptorsB member 2Brains of individualsReceptor candidatesSoluble AβOsDisease relevanceCell surface expressionHippocampal neuronsMouse modelSynthetic AβAβO bindingMemory impairmentReceptor 1Cellular prion proteinNeuronal synapsesNgR1Molecular pathologyAβAβ speciesMember 2
2015
Erasure of fear memories is prevented by Nogo Receptor 1 in adulthood
Bhagat SM, Butler SS, Taylor JR, McEwen BS, Strittmatter SM. Erasure of fear memories is prevented by Nogo Receptor 1 in adulthood. Molecular Psychiatry 2015, 21: 1281-1289. PMID: 26619810, PMCID: PMC4887429, DOI: 10.1038/mp.2015.179.Peer-Reviewed Original ResearchConceptsPost-traumatic stress disorderExtinction trainingFear memorySpontaneous fear recoveryBasolateral amygdalaJuvenile rodentsFear recoveryFear renewalFear extinctionFear expressionInhibitory synapse markersNgR1 expressionStress disorderNogo receptor 1Anxiety disordersInfralimbic cortexCritical periodNeural plasticityMemoryTemporary windowsReceptor 1TrainingAdulthoodNgR1 functionNaive miceComprehensive Corticospinal Labeling with mu-crystallin Transgene Reveals Axon Regeneration after Spinal Cord Trauma in ngr1−/− Mice
Fink KL, Strittmatter SM, Cafferty WB. Comprehensive Corticospinal Labeling with mu-crystallin Transgene Reveals Axon Regeneration after Spinal Cord Trauma in ngr1−/− Mice. Journal Of Neuroscience 2015, 35: 15403-15418. PMID: 26586827, PMCID: PMC4649010, DOI: 10.1523/jneurosci.3165-15.2015.Peer-Reviewed Original ResearchMeSH KeywordsAmidinesAnalysis of VarianceAnimalsAxonsBiotinCrystallinsDextransDisease Models, AnimalFunctional LateralityGene Expression RegulationGlial Fibrillary Acidic ProteinGPI-Linked ProteinsLuminescent ProteinsMiceMice, Inbred C57BLMice, TransgenicMu-CrystallinsMyelin ProteinsNerve RegenerationNogo Receptor 1Pyramidal TractsReceptors, Cell SurfaceRecovery of FunctionSpinal Cord InjuriesConceptsCorticospinal tractCST axonsTransgenic miceMotor tractsDextran amineFunctional deficitsSpinal cordAxon regenerationSpinal Cord Injury StudySpontaneous axon regenerationSpinal cord traumaNogo receptor 1Permanent functional deficitsPersistent functional deficitsBilateral pyramidotomyDorsal hemisectionMidthoracic cordCord traumaMotor pathwaysAdult CNSCST regenerationInjury studiesLesion siteRegenerating fibersNeural repairPlasticity of Intact Rubral Projections Mediates Spontaneous Recovery of Function after Corticospinal Tract Injury
Siegel CS, Fink KL, Strittmatter SM, Cafferty WB. Plasticity of Intact Rubral Projections Mediates Spontaneous Recovery of Function after Corticospinal Tract Injury. Journal Of Neuroscience 2015, 35: 1443-1457. PMID: 25632122, PMCID: PMC4308593, DOI: 10.1523/jneurosci.3713-14.2015.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsDesigner DrugsFunctional LateralityGene Expression RegulationGlial Fibrillary Acidic ProteinLocomotionMaleMiceMice, Inbred C57BLMice, TransgenicMuscle StrengthMyelin ProteinsNeuronal PlasticityNogo ProteinsPsychomotor DisordersPyramidal TractsRaphe NucleiRecovery of FunctionSpinal Cord InjuriesStereotyped BehaviorTime FactorsConceptsSpinal cord injurySpontaneous functional recoveryFunctional recoverySpontaneous recoveryIncomplete spinal cord injuryCorticospinal tract lesionsWeeks of lesionCorticospinal tract injuryNogo receptor 1Nucleus raphe magnusTract injuryRubrospinal projectionsTract lesionsCord injuryRaphe magnusCircuit rearrangementsAdult CNSCircuit plasticityLocomotor functionAdult micePharmacogenetic toolsRed nucleusRubral projectionReceptor 1Extensive sprouting
2013
Anatomical Plasticity of Adult Brain Is Titrated by Nogo Receptor 1
Akbik FV, Bhagat SM, Patel PR, Cafferty WB, Strittmatter SM. Anatomical Plasticity of Adult Brain Is Titrated by Nogo Receptor 1. Neuron 2013, 77: 859-866. PMID: 23473316, PMCID: PMC3594793, DOI: 10.1016/j.neuron.2012.12.027.Peer-Reviewed Original ResearchConceptsNgr1-/- miceNogo receptor 1Somatosensory cortexReceptor 1Adult cerebral cortexDendritic spine turnoverDendritic spine dynamicsAnatomical plasticityCerebral cortexControl miceSpine turnoverAxonal varicositiesWhisker removalAdult brainDendritic spinesSpine dynamicsNull miceAge 26Synaptic turnoverAnatomical connectivityConditional deletionMiceLower set pointNgR1Cortex
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 inhibitorAntagonistBrainMyelinNogoA 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