Featured Publications
Targeted two-photon chemical apoptotic ablation of defined cell types in vivo
Hill RA, Damisah EC, Chen F, Kwan AC, Grutzendler J. Targeted two-photon chemical apoptotic ablation of defined cell types in vivo. Nature Communications 2017, 8: 15837. PMID: 28621306, PMCID: PMC5501159, DOI: 10.1038/ncomms15837.Peer-Reviewed Original ResearchConceptsCell deathNucleic acid-binding dyeVivo functional consequencesCell type differencesPattern of apoptosisDose-dependent apoptosisComplex organismsMitochondrial fissionFluorescent proteinUnderstanding of mechanismsCell typesCell clearanceFunctional consequencesIndividual cellsDiverse organsDistinct populationsApoptosisMouse brainZebrafishMajor bottleneckNeural plasticityOrganismsSpeciesProteinApoptotic
2017
Oxalate-curcumin–based probe for micro- and macroimaging of reactive oxygen species in Alzheimer’s disease
Yang J, Zhang X, Yuan P, Yang J, Xu Y, Grutzendler J, Shao Y, Moore A, Ran C. Oxalate-curcumin–based probe for micro- and macroimaging of reactive oxygen species in Alzheimer’s disease. Proceedings Of The National Academy Of Sciences Of The United States Of America 2017, 114: 12384-12389. PMID: 29109280, PMCID: PMC5703278, DOI: 10.1073/pnas.1706248114.Peer-Reviewed Original ResearchConceptsCerebral amyloid angiopathyAD brainAlzheimer's diseaseTwo-photon imagingNIRF imagingAmyloid-beta plaquesROS levelsIrreversible neurodegenerative disorderAD pathological conditionsAge-related increaseReactive oxygen species levelsAmyloid angiopathyBeta plaquesOxygen species levelsDrug treatmentHealthy brainNeurodegenerative disordersDiseaseOxidative stressHigh ROS levelsPathological conditionsReactive oxygen speciesBrainFluorescence imaging probeOxygen species
2014
A bifunctional curcumin analogue for two-photon imaging and inhibiting crosslinking of amyloid beta in Alzheimer's disease
Zhang X, Tian Y, Yuan P, Li Y, Yaseen MA, Grutzendler J, Moore A, Ran C. A bifunctional curcumin analogue for two-photon imaging and inhibiting crosslinking of amyloid beta in Alzheimer's disease. Chemical Communications 2014, 50: 11550-11553. PMID: 25134928, PMCID: PMC4617557, DOI: 10.1039/c4cc03731f.Peer-Reviewed Original Research
2010
Thinned-skull cranial window technique for long-term imaging of the cortex in live mice
Yang G, Pan F, Parkhurst CN, Grutzendler J, Gan WB. Thinned-skull cranial window technique for long-term imaging of the cortex in live mice. Nature Protocols 2010, 5: 201-208. PMID: 20134419, PMCID: PMC4690457, DOI: 10.1038/nprot.2009.222.Peer-Reviewed Original ResearchConceptsTwo-photon laser scanning microscopyHigh optical resolutionThinned-skull cranial windowImportant experimental toolOptical resolutionLiving brainCranial window techniqueLive miceLong-term imagingCranial windowExperimental toolInvasive approachAvoids exposureFunctional changesCortical structuresLongitudinal imagingPathological conditionsCortexBrainLaser scanning microscopyScanning microscopyMiceImagingMicroscopyResolution