2014
Human iPSC Neurons Display Activity-Dependent Neurotransmitter Secretion: Aberrant Catecholamine Levels in Schizophrenia Neurons
Hook V, Brennand K, Kim Y, Toneff T, Funkelstein L, Lee K, Ziegler M, Gage F. Human iPSC Neurons Display Activity-Dependent Neurotransmitter Secretion: Aberrant Catecholamine Levels in Schizophrenia Neurons. Stem Cell Reports 2014, 3: 531-538. PMID: 25358781, PMCID: PMC4223699, DOI: 10.1016/j.stemcr.2014.08.001.Peer-Reviewed Original ResearchConceptsHiPSC neuronsHuman-induced pluripotent stem cell-derived neuronsPluripotent stem cell-derived neuronsActivity-dependent secretionStem cell-derived neuronsCell-derived neuronsPositive neuronsCatecholamine levelsActivity-dependent mannerTyrosine hydroxylasePeptide neurotransmittersNeuronal culturesBrain disordersNeurotransmitter releaseChemical neurotransmissionKCl stimulationNeuronsNorepinephrineCatecholaminesElevated levelsNeurotransmitter secretionCatecholamine biosynthesisSchizophreniaDopamineNeurotransmitters
2005
Contactin regulates the current density and axonal expression of tetrodotoxin‐resistant but not tetrodotoxin‐sensitive sodium channels in DRG neurons
Rush AM, Craner MJ, Kageyama T, Dib‐Hajj S, Waxman SG, Ranscht B. Contactin regulates the current density and axonal expression of tetrodotoxin‐resistant but not tetrodotoxin‐sensitive sodium channels in DRG neurons. European Journal Of Neuroscience 2005, 22: 39-49. PMID: 16029194, DOI: 10.1111/j.1460-9568.2005.04186.x.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAxonsCell Adhesion Molecules, NeuronalCell MembraneCells, CulturedContactinsDown-RegulationGanglia, SpinalMembrane PotentialsMiceMice, Inbred C57BLMice, KnockoutNAV1.8 Voltage-Gated Sodium ChannelNAV1.9 Voltage-Gated Sodium ChannelNerve Fibers, UnmyelinatedNeurons, AfferentNeuropeptidesNociceptorsPatch-Clamp TechniquesPlant LectinsSodium Channel BlockersSodium ChannelsTetrodotoxinConceptsTTX-S channelsDRG neuronsSodium channelsSmall-diameter dorsal root ganglion neuronsSmall-diameter DRG neuronsWhole-cell patch-clamp recordingsTetrodotoxin-sensitive sodium channelsDorsal root ganglion neuronsChannel isoformsNociceptive DRG neuronsTTX-sensitive sodium channelsSodium channel Nav1.2Patch-clamp recordingsSodium channel isoformsPositive neuronsGanglion neuronsSciatic nerveCell surface expressionIsolectin B4Axonal expressionUnmyelinated axonsMammalian neuronal cellsLitter matesNav1.9Neuronal cells
1998
Intrastriatal Grafts From Multiple Donors Do Not Result in a Proportional Increase in Survival of Dopamine Neurons in Nonhuman Primates
Sladek J, Collier T, Elsworth J, Roth R, Taylor J, Redmond D. Intrastriatal Grafts From Multiple Donors Do Not Result in a Proportional Increase in Survival of Dopamine Neurons in Nonhuman Primates. Cell Transplantation 1998, 7: 87-96. DOI: 10.1016/s0963-6897(98)00007-4.Peer-Reviewed Original ResearchConceptsDopamine neuronsDouble graftsAdult African green monkeysVentral mesencephalic dopamine neuronsMultiple donorsGrafts of tissueMore dopamine neuronsSymptoms of parkinsonismMesencephalic dopamine neuronsDopamine cell survivalHuman clinical trialsAfrican green monkeysIntrastriatal graftsPositive neuronsTotal numberClinical trialsDopamine levelsCaudate nucleusRecipient animalsGraftGrafted tissueNeuronsGreen monkeysNonhuman primatesDorsoventral extentIntrastriatal Grafts from Multiple Donors do not Result in a Proportional Increase in Survival of Dopamine Neurons in Nonhuman Primates
Sladek J, Collier T, Elsworth J, Roth R, Taylor J, Redmond D. Intrastriatal Grafts from Multiple Donors do not Result in a Proportional Increase in Survival of Dopamine Neurons in Nonhuman Primates. Cell Transplantation 1998, 7: 87-96. PMID: 9588591, DOI: 10.1177/096368979800700204.Peer-Reviewed Original ResearchConceptsDopamine neuronsDouble graftsAdult African green monkeysVentral mesencephalic dopamine neuronsMultiple donorsGrafts of tissueMore dopamine neuronsSymptoms of parkinsonismMesencephalic dopamine neuronsDopamine cell survivalHuman clinical trialsAfrican green monkeysIntrastriatal graftsPositive neuronsTotal numberClinical trialsDopamine levelsCaudate nucleusRecipient animalsGraftGrafted tissueNeuronsGreen monkeysNonhuman primatesDorsoventral extent
1987
Chapter 25 Transplantation of fetal dopamine neurons in primate brain reverses MPTP induced parkinsonism
Sladek J, Redmond D, Collier T, Haber S, Elsworth J, Deutch A, Roth R. Chapter 25 Transplantation of fetal dopamine neurons in primate brain reverses MPTP induced parkinsonism. Progress In Brain Research 1987, 71: 309-323. PMID: 3495818, DOI: 10.1016/s0079-6123(08)61833-6.Peer-Reviewed Original ResearchConceptsParkinsonian signsFetal neuronsCerebrospinal fluidTyrosine hydroxylase-positive neuronsFetal dopamine neuronsToxin-induced parkinsonismDopamine metabolite levelsAfrican green monkeysNigral tissuePositive neuronsGestational tissuesNeurochemical indicesSubstantia nigraDopamine neuronsGrowth of neuritesCaudate nucleusMotor impairmentParkinson's diseaseSevere symptomsPrimate brainThird monkeyImmunohistochemical observationsTransplantationGreen monkeysTherapeutic insights
This site is protected by hCaptcha and its Privacy Policy and Terms of Service apply