2021
Caveolae-mediated Tie2 signaling contributes to CCM pathogenesis in a brain endothelial cell-specific Pdcd10-deficient mouse model
Zhou HJ, Qin L, Jiang Q, Murray KN, Zhang H, Li B, Lin Q, Graham M, Liu X, Grutzendler J, Min W. Caveolae-mediated Tie2 signaling contributes to CCM pathogenesis in a brain endothelial cell-specific Pdcd10-deficient mouse model. Nature Communications 2021, 12: 504. PMID: 33495460, PMCID: PMC7835246, DOI: 10.1038/s41467-020-20774-0.Peer-Reviewed Original ResearchConceptsCerebral cavernous malformationsCCM lesionsSmooth muscle actin-positive pericytesEndothelial cell lossRegions of brainCCM pathogenesisPost-capillary venulesCerebral hemorrhagePharmacological blockadeVascular abnormalitiesEC-specific deletionCavernous malformationsMouse modelCell lossMicrovascular bedGenetic deletionLesion formationLesionsVascular dynamicsBarrier functionMicrovascular structureTwo-photon microscopyTie2PathogenesisMice
2012
In Vivo Imaging of Cerebral Microvascular Plasticity from Birth to Death
Harb R, Whiteus C, Freitas C, Grutzendler J. In Vivo Imaging of Cerebral Microvascular Plasticity from Birth to Death. Cerebrovascular And Brain Metabolism Reviews 2012, 33: 146-156. PMID: 23093067, PMCID: PMC3597363, DOI: 10.1038/jcbfm.2012.152.Peer-Reviewed Original ResearchConceptsVascular stabilityYoung adult miceFirst postnatal monthDegenerative neurological disordersVessel formationHypoxia-induced angiogenesisCerebral functionPostnatal monthAdult brainAdult miceIntact brainMicrovascular plasticityNeurological disordersFirst monthMicrovessel formationOlder adultsMetabolic challengesTwo-photon microscopyNew vesselsBaseline turnoverLong-term adaptive responsesIndividual microvesselsMiceVivo patternBrain
2011
Transcranial Two-Photon Imaging of the Living Mouse Brain
Grutzendler J, Yang G, Pan F, Parkhurst CN, Gan WB. Transcranial Two-Photon Imaging of the Living Mouse Brain. Cold Spring Harbor Protocols 2011, 2011: pdb.prot065474. PMID: 21880826, PMCID: PMC4641516, DOI: 10.1101/pdb.prot065474.Peer-Reviewed Original ResearchConceptsMouse brainAxonal varicositiesSurgical proceduresDendritic spinesSide effectsBrain cellsTwo-photon imagingInvasive methodBlood vesselsSame animalsPathological conditionsTwo-photon microscopyIntact skullBrainTranscranialImagingMicrogliaSurgeryVaricositiesImaging methodNeuronsLong time intervalsSpine
2007
Long-term two-photon transcranial imaging of synaptic structures in the living brain.
Grutzendler J, Gan WB. Long-term two-photon transcranial imaging of synaptic structures in the living brain. Cold Spring Harbor Protocols 2007, 2007: pdb.prot4766. PMID: 21357119, DOI: 10.1101/pdb.prot4766.Peer-Reviewed Original ResearchLiving brainNeurological disease modelsMouse brain areasIndividual dendritic spinesAxonal varicositiesFrontal cortexDendritic spinesBrain areasTherapeutic interventionsSynaptic structureFunctional changesNeuronal structuresTranscranial imagingTwo-photon microscopyDisease modelsBrainLiving mouseSensitive toolImaging approachMemory processesImagingSomatosensoryVaricositiesCortexMice
2006
Two-photon imaging of synaptic plasticity and pathology in the living mouse brain
Grutzendler J, Gan WB. Two-photon imaging of synaptic plasticity and pathology in the living mouse brain. Neurotherapeutics 2006, 3: 489-496. PMID: 17012063, PMCID: PMC3593400, DOI: 10.1016/j.nurx.2006.07.005.Peer-Reviewed Original ResearchConceptsTwo-photon microscopyMouse brainAcute brain injuryPostsynaptic dendritic spinesAdult mouse brainCerebral ischemiaSynaptic pathologyCerebrovascular diseaseBrain injuryMouse modelDendritic spinesAnimal modelsBrain cellsIntact brainTwo-photon imagingNeuronal connectionsSynaptic plasticityAlzheimer's diseaseNeuronal structuresDiseaseBrainStructural plasticityPathologyTechnical considerationsIschemia