2024
Lysosomal TMEM106B interacts with galactosylceramidase to regulate myelin lipid metabolism
Takahashi H, Perez-Canamas A, Lee C, Ye H, Han X, Strittmatter S. Lysosomal TMEM106B interacts with galactosylceramidase to regulate myelin lipid metabolism. Communications Biology 2024, 7: 1088. PMID: 39237682, PMCID: PMC11377756, DOI: 10.1038/s42003-024-06810-5.Peer-Reviewed Original ResearchConceptsMyelin lipid metabolismCo-immunoprecipitation assaysSulfated derivative sulfatideLipid metabolismAssociated with multiple neurological disordersCo-immunoprecipitationTMEM106BTransmembrane proteinsAmyloid fibrilsTMEM106B deficiencyHypomyelinating leukodystrophyAlzheimer's diseasePhysiological functionsFrontotemporal dementiaMolecular levelNeurodegenerative brainGalactosylceramidaseLipidomic analysisMultiple neurological disordersMetabolismMyelin lipidsDecreased levelsEndolysosomesAmyloidGalactosylceramidase activityReduced progranulin increases tau and α-synuclein inclusions and alters mouse tauopathy phenotypes via glucocerebrosidase
Takahashi H, Bhagwagar S, Nies S, Ye H, Han X, Chiasseu M, Wang G, Mackenzie I, Strittmatter S. Reduced progranulin increases tau and α-synuclein inclusions and alters mouse tauopathy phenotypes via glucocerebrosidase. Nature Communications 2024, 15: 1434. PMID: 38365772, PMCID: PMC10873339, DOI: 10.1038/s41467-024-45692-3.Peer-Reviewed Original ResearchConceptsTau inclusionsComorbid proteinopathiesTau aggregation in vitroPromotes tau aggregation in vitroAlzheimer's diseaseProgranulin reductionTDP-43 proteinopathyTauopathy phenotypeTau aggregationAD-tauHuman tauopathiesNeurofibrillary tanglesTauopathy miceReduction of progranulinPurified GlcCerTDP-43Concomitant accumulationAggregation in vitroAssociated with synucleinopathiesNeurodegenerative disordersProteinopathiesGCase inhibitionTauGCaseGlcCer
2021
Transcriptomic taxonomy and neurogenic trajectories of adult human, macaque, and pig hippocampal and entorhinal cells
Franjic D, Skarica M, Ma S, Arellano JI, Tebbenkamp ATN, Choi J, Xu C, Li Q, Morozov YM, Andrijevic D, Vrselja Z, Spajic A, Santpere G, Li M, Zhang S, Liu Y, Spurrier J, Zhang L, Gudelj I, Rapan L, Takahashi H, Huttner A, Fan R, Strittmatter SM, Sousa AMM, Rakic P, Sestan N. Transcriptomic taxonomy and neurogenic trajectories of adult human, macaque, and pig hippocampal and entorhinal cells. Neuron 2021, 110: 452-469.e14. PMID: 34798047, PMCID: PMC8813897, DOI: 10.1016/j.neuron.2021.10.036.Peer-Reviewed Original ResearchConceptsDisease-related proteinsCellular diversityCross-species analysisSingle-nucleus transcriptomesLipid droplet proteinsSpecies-specific propertiesImmature neuron populationTranscriptomic taxonomyAlzheimer's disease-related proteinsEndoplasmic reticulumCell typesHuman neuronsSpecies differencesHistologic signatureNeurogenic capabilityProteinExcitatory neuronsDiversityAdult miceGranule cellsAlzheimer's diseaseNeuron populationsCognitive functionEntorhinal cellsAdult humans
2020
Fyn kinase inhibition reduces protein aggregation, increases synapse density and improves memory in transgenic and traumatic Tauopathy
Tang SJ, Fesharaki-Zadeh A, Takahashi H, Nies SH, Smith LM, Luo A, Chyung A, Chiasseu M, Strittmatter SM. Fyn kinase inhibition reduces protein aggregation, increases synapse density and improves memory in transgenic and traumatic Tauopathy. Acta Neuropathologica Communications 2020, 8: 96. PMID: 32611392, PMCID: PMC7329553, DOI: 10.1186/s40478-020-00976-9.Peer-Reviewed Original ResearchConceptsRepetitive closed head injuriesMemory deficitsPhospho-tau accumulationChronic variable stressPersistent memory deficitsP301S transgenic miceClosed head injuryFyn inhibitionPassive avoidance learningFyn kinaseGlial activationPhospho-tauPresynaptic markersSynapse lossTau accumulationHead injurySynapse densityPhosphorylated tauTherapeutic benefitTransgenic miceBehavioral improvementTrauma modelTauopathiesSpatial memoryAvoidance learning
2018
Liquid and Hydrogel Phases of PrPC Linked to Conformation Shifts and Triggered by Alzheimer’s Amyloid-β Oligomers
Kostylev MA, Tuttle MD, Lee S, Klein LE, Takahashi H, Cox TO, Gunther EC, Zilm KW, Strittmatter SM. Liquid and Hydrogel Phases of PrPC Linked to Conformation Shifts and Triggered by Alzheimer’s Amyloid-β Oligomers. Molecular Cell 2018, 72: 426-443.e12. PMID: 30401430, PMCID: PMC6226277, DOI: 10.1016/j.molcel.2018.10.009.Peer-Reviewed Original ResearchConceptsAmino-terminal GlyCellular prion proteinProtein phase separationAmyloid-β OligomersPlasma membraneMembraneless organellesAla residuesRecombinant PrPPrion proteinCell surfaceConformation shiftConformational transitionHelical conformationAβ speciesPrPSupSpongiform degenerationEndogenous AβOsOrganellesPrPCSuch domainsSpeciesDomainProteinAβOs
2017
Opposing effects of progranulin deficiency on amyloid and tau pathologies via microglial TYROBP network
Takahashi H, Klein ZA, Bhagat SM, Kaufman AC, Kostylev MA, Ikezu T, Strittmatter SM, For the Alzheimer’s Disease Neuroimaging Initiative. Opposing effects of progranulin deficiency on amyloid and tau pathologies via microglial TYROBP network. Acta Neuropathologica 2017, 133: 785-807. PMID: 28070672, PMCID: PMC5391267, DOI: 10.1007/s00401-017-1668-z.Peer-Reviewed Original ResearchConceptsAPP/PS1 micePS1 micePGRN deficiencyAlzheimer's diseaseAD risk variantsCerebrospinal fluid Aβ levelsLoss of progranulinMicroglial Aβ phagocytosisCSF tau levelsFrontotemporal lobar degenerationRisk variantsAPPswe/Aβ phagocytosisNeuronal injuryAβ levelsAβ pathologyCerebral amyloidosisAxonal dystrophyTau pathologyTau levelsComplement depositionPGRN levelsAD pathophysiologyAmyloid imagingProgranulin deficiency
2013
Metabotropic Glutamate Receptor 5 Is a Coreceptor for Alzheimer Aβ Oligomer Bound to Cellular Prion Protein
Um JW, Kaufman AC, Kostylev M, Heiss JK, Stagi M, Takahashi H, Kerrisk ME, Vortmeyer A, Wisniewski T, Koleske AJ, Gunther EC, Nygaard HB, Strittmatter SM. Metabotropic Glutamate Receptor 5 Is a Coreceptor for Alzheimer Aβ Oligomer Bound to Cellular Prion Protein. Neuron 2013, 79: 887-902. PMID: 24012003, PMCID: PMC3768018, DOI: 10.1016/j.neuron.2013.06.036.Peer-Reviewed Original ResearchMeSH KeywordsAlzheimer DiseaseAmyloid beta-PeptidesAnimalsCalciumCells, CulturedElongation Factor 2 KinaseHEK293 CellsHumansMiceNeuronsOocytesPhosphorylationPost-Synaptic DensityProto-Oncogene Proteins c-fynPrPC ProteinsReceptor, Metabotropic Glutamate 5Receptors, Metabotropic GlutamateSignal TransductionXenopusConceptsDisease pathophysiologyHuman AD brain extractsCellular prion proteinMetabotropic glutamate receptor 5Postsynaptic densityDendritic spine lossAD brain extractsMetabotropic glutamate receptorsGlutamate receptor 5Alzheimer's disease pathophysiologyExtracellular AβOsMGluR5 antagonismPrion proteinSpine lossSynapse densityGlutamate receptorsIntracellular calciumMGluR5Receptor 5Neuronal functionAβOsBrain extractsAβ oligomersFyn kinasePSD proteins