2016
Divisive suppression explains high-precision firing and contrast adaptation in retinal ganglion cells
Cui Y, Wang YV, Park SJ, Demb JB, Butts DA. Divisive suppression explains high-precision firing and contrast adaptation in retinal ganglion cells. ELife 2016, 5: e19460. PMID: 27841746, PMCID: PMC5108594, DOI: 10.7554/elife.19460.Peer-Reviewed Original ResearchMeSH KeywordsAction PotentialsAdaptation, OcularAnimalsMiceModels, NeurologicalRetinal Ganglion CellsVisual PerceptionConceptsExcitatory synaptic inputsSynaptic inputsGanglion cell functionContrast adaptationRetinal ganglion cellsGanglion cell inputsComplex neural circuitsGanglion cell outputCell-intrinsic mechanismsGanglion cellsDivisive interactionMouse retinaNeural circuitsSpike responsesCell functionDivisive suppressionSensory processingCell inputSpike generation mechanismMillisecond precisionVisual processingSpike trainsCell outputSuppressionRetina
2014
Excitatory Synaptic Inputs to Mouse On-Off Direction-Selective Retinal Ganglion Cells Lack Direction Tuning
Park SJ, Kim IJ, Looger LL, Demb JB, Borghuis BG. Excitatory Synaptic Inputs to Mouse On-Off Direction-Selective Retinal Ganglion Cells Lack Direction Tuning. Journal Of Neuroscience 2014, 34: 3976-3981. PMID: 24623775, PMCID: PMC3951696, DOI: 10.1523/jneurosci.5017-13.2014.Peer-Reviewed Original ResearchConceptsDirection-selective ganglion cellsOFF direction-selective ganglion cellsStarburst amacrine cellsGlutamate releaseBipolar cellsExcitatory currentsPreferred direction motionBipolar cell typesExcitatory synaptic inputsNull-direction inhibitionGABA-A receptorsWhole-cell recordingsNull-direction motionDSGC dendritesGABA releaseCholinergic inputAmacrine cellsGanglion cellsSynaptic mechanismsSynaptic inputsMammalian retinaMouse retinaIntensity-based glutamate-sensing fluorescent reporterDirection selectivityDirection tuning
2013
Adaptation to Background Light Enables Contrast Coding at Rod Bipolar Cell Synapses
Ke JB, Wang YV, Borghuis BG, Cembrowski MS, Riecke H, Kath WL, Demb JB, Singer JH. Adaptation to Background Light Enables Contrast Coding at Rod Bipolar Cell Synapses. Neuron 2013, 81: 388-401. PMID: 24373883, PMCID: PMC4267681, DOI: 10.1016/j.neuron.2013.10.054.Peer-Reviewed Original ResearchMeSH Keywords2-Amino-5-phosphonovalerateAdaptation, OcularAnimalsBiophysicsComputer SimulationExcitatory Amino Acid AntagonistsGlucosamine 6-Phosphate N-AcetyltransferaseGreen Fluorescent ProteinsIn Vitro TechniquesLightMiceMice, Inbred C57BLMice, KnockoutMice, TransgenicModels, NeurologicalPatch-Clamp TechniquesQuinoxalinesRetinal Bipolar CellsRetinal Rod Photoreceptor CellsSynapsesVisual Pathways
2011
A Synaptic Mechanism for Retinal Adaptation to Luminance and Contrast
Jarsky T, Cembrowski M, Logan SM, Kath WL, Riecke H, Demb JB, Singer JH. A Synaptic Mechanism for Retinal Adaptation to Luminance and Contrast. Journal Of Neuroscience 2011, 31: 11003-11015. PMID: 21795549, PMCID: PMC3152984, DOI: 10.1523/jneurosci.2631-11.2011.Peer-Reviewed Original ResearchMeSH KeywordsAdaptation, PhysiologicalAmacrine CellsAnimalsBiophysical PhenomenaBiophysicsCalciumContrast SensitivityElectric StimulationExcitatory Postsynaptic PotentialsFemaleIn Vitro TechniquesLightingMaleMiceMice, Inbred C57BLModels, NeurologicalNumerical Analysis, Computer-AssistedPatch-Clamp TechniquesPhotic StimulationPresynaptic TerminalsRetinaRetinal Bipolar CellsSynaptic TransmissionConceptsSynaptic mechanismsSynaptic transmissionBipolar cell synaptic transmissionMouse retinal slice preparationVesicle depletionCommon synaptic mechanismsPrimary sensory circuitsUse-dependent regulationAII amacrine cellsContrast adaptationRetinal slice preparationBipolar cell synapsesCell synaptic transmissionRetinal neural circuitWhole-cell recordingsRetinal bipolar cellsPhasic transmissionTonic transmissionAmacrine cellsSlice preparationCell synapsesBipolar cellsSame cellular mechanismsSensory circuitsNeural circuits
2008
Distinct expressions of contrast gain control in parallel synaptic pathways converging on a retinal ganglion cell
Beaudoin DL, Manookin MB, Demb JB. Distinct expressions of contrast gain control in parallel synaptic pathways converging on a retinal ganglion cell. The Journal Of Physiology 2008, 586: 5487-5502. PMID: 18832424, PMCID: PMC2655385, DOI: 10.1113/jphysiol.2008.156224.Peer-Reviewed Original ResearchConceptsCone bipolar cellsOFF ganglion cellsRod bipolar cellsGanglion cellsRetinal ganglion cellsBipolar cellsInhibitory inputsExcitatory inputsSynaptic pathwaysContrast gain controlOFF cone bipolar cellsIonotropic glutamate receptor antagonistsY-type ganglion cellsRod bipolar pathwayAII amacrine cellsGlutamate receptor antagonistsGanglion cell firingWhole-cell recordingsLoose-patch recordingsAmacrine cellsReceptor antagonistRetinal pathwaysAII cellsSynaptic mechanismsSynaptic currents
2007
Functional Circuitry for Peripheral Suppression in Mammalian Y-Type Retinal Ganglion Cells
Zaghloul KA, Manookin MB, Borghuis BG, Boahen K, Demb JB. Functional Circuitry for Peripheral Suppression in Mammalian Y-Type Retinal Ganglion Cells. Journal Of Neurophysiology 2007, 97: 4327-4340. PMID: 17460102, DOI: 10.1152/jn.01091.2006.Peer-Reviewed Original ResearchConceptsAmacrine cellsGanglion cellsCenter responseSynaptic layersY-type retinal ganglion cellsHorizontal cellsY-type ganglion cellsSecond synaptic layerGanglion cell receptive fieldsRetinal ganglion cellsGuinea pig retinaStimulus-response curvesRetinal ganglion cell receptive fieldsFirst synaptic layerCurrent-clamp conditionsBipolar terminalsGlutamate releaseCell receptive fieldsPeripheral gratingsPeripheral suppressionIntracellular recordingsPig retinaSubthreshold membrane potentialsExcitatory centerInhibitory conductance
2005
Contrast Adaptation in Subthreshold and Spiking Responses of Mammalian Y-Type Retinal Ganglion Cells
Zaghloul KA, Boahen K, Demb JB. Contrast Adaptation in Subthreshold and Spiking Responses of Mammalian Y-Type Retinal Ganglion Cells. Journal Of Neuroscience 2005, 25: 860-868. PMID: 15673666, PMCID: PMC6725633, DOI: 10.1523/jneurosci.2782-04.2005.Peer-Reviewed Original ResearchConceptsRetinal ganglion cellsGanglion cellsIntracellular recordingsSubthreshold responsesY-type retinal ganglion cellsY-type ganglion cellsSynaptic mechanismsSynaptic inputsMammalian retinaSpiking responseExtracellular recordingsSubthreshold potentialsContrast sensitivitySpike outputSpike thresholdContrast adaptationSpike generationGain changesCellsRecordingsResponseApparent reductionRecording conditionsAbove effectsMean light level
2004
How Retinal Ganglion Cells Prevent Synaptic Noise From Reaching the Spike Output
Demb JB, Sterling P, Freed MA. How Retinal Ganglion Cells Prevent Synaptic Noise From Reaching the Spike Output. Journal Of Neurophysiology 2004, 92: 2510-2519. PMID: 15175375, DOI: 10.1152/jn.00108.2004.Peer-Reviewed Original ResearchConceptsSynaptic convergenceSpike outputGanglion cellsIntracellular recordingsSynaptic inputsSpike responsesF1 responseRetinal ganglion cellsSpike rateNeuron synaptic inputsPrimary visual cortexExtracellular recordingsVisual cortexPeak depolarizationStimulus frequencyStimulus cycleSynaptic vesiclesStimulus contrastStrong stimulusSynaptic noiseDepolarizationNeuronsParadoxical findingsMembrane potentialSame cells
2003
Different Circuits for ON and OFF Retinal Ganglion Cells Cause Different Contrast Sensitivities
Zaghloul KA, Boahen K, Demb JB. Different Circuits for ON and OFF Retinal Ganglion Cells Cause Different Contrast Sensitivities. Journal Of Neuroscience 2003, 23: 2645-2654. PMID: 12684450, PMCID: PMC6742092, DOI: 10.1523/jneurosci.23-07-02645.2003.Peer-Reviewed Original ResearchConceptsOFF cellsGanglion cellsSynaptic inputsContrast sensitivityExcitatory conductanceOFF retinal ganglion cellsOFF ganglion cellsBasal glutamate releaseRetinal ganglion cellsBrisk-transient cellsGuinea pig retinaBipolar terminalsPresynaptic circuitsGlutamate releaseIntracellular recordingsON pathwayPig retinaSubthreshold membrane potentialsLight incrementsL-APMembrane potentialCellsMean luminancePathwayRetina
2001
Bipolar Cells Contribute to Nonlinear Spatial Summation in the Brisk-Transient (Y) Ganglion Cell in Mammalian Retina
Demb J, Zaghloul K, Haarsma L, Sterling P. Bipolar Cells Contribute to Nonlinear Spatial Summation in the Brisk-Transient (Y) Ganglion Cell in Mammalian Retina. Journal Of Neuroscience 2001, 21: 7447-7454. PMID: 11567034, PMCID: PMC6762908, DOI: 10.1523/jneurosci.21-19-07447.2001.Peer-Reviewed Original ResearchConceptsBipolar cellsGanglion cellsBrisk-transient ganglion cellsReceptive fieldsExcitatory postsynaptic potentialsGuinea pig retinaNonlinear spatial summationNonlinear receptive fieldsAmacrine cellsPostsynaptic potentialsPig retinaExcitatory mechanismsMammalian retinaY cellsLinear receptive fieldsSpatial summationBipolar inputRetinaCellsPeripheral componentsCentral componentAcetylcholineTetrodotoxinGABA
1999
Functional Circuitry of the Retinal Ganglion Cell's Nonlinear Receptive Field
Demb J, Haarsma L, Freed M, Sterling P. Functional Circuitry of the Retinal Ganglion Cell's Nonlinear Receptive Field. Journal Of Neuroscience 1999, 19: 9756-9767. PMID: 10559385, PMCID: PMC6782950, DOI: 10.1523/jneurosci.19-22-09756.1999.Peer-Reviewed Original ResearchConceptsGanglion cellsDendritic fieldsContrast-reversing gratingsNonlinear receptive fieldsOFF ganglion cellsReceptive fieldsCell dendritic fieldsRetinal ganglion cellsGuinea pig retinaBipolar cell responsesReceptive field mechanismsSurround responsesBipolar cellsPig retinaCell responsesFunctional circuitryL-APVisual stimuliMembrane potentialSingle classCellsResponseInterneuronsTetrodotoxinRetina