2025
Optic nerve injury impairs intrinsic mechanisms underlying electrical activity in a resilient retinal ganglion cell
Zapadka T, Tran N, Demb J. Optic nerve injury impairs intrinsic mechanisms underlying electrical activity in a resilient retinal ganglion cell. The Journal Of Physiology 2025 PMID: 39985791, DOI: 10.1113/jp286414.Peer-Reviewed Original ResearchOptic nerve crushRetinal ganglion cellsOptic nerveGanglion cellsSynaptic inputsVoltage-gated sodium channel currentsRetinal ganglion cell typesVoltage-gatedRetinal ganglion cell survivalChelation of intracellular calciumResting membrane potentialOptic nerve injuryVoltage-gated currentsAxonal injurySodium channel currentsRetinal ganglion cell axonsRGC typesAlpha retinal ganglion cellsAxon initial segmentIntracellular calciumRate of survivalNerve injuryElectrophysiological propertiesNerve crushIntrinsic excitability
2024
Specific retinal neurons regulate context-dependent defensive responses to visual threat
Lee T, Weinberg-Wolf H, Zapadka T, Rudenko A, Demb J, Kim I. Specific retinal neurons regulate context-dependent defensive responses to visual threat. PNAS Nexus 2024, 3: pgae423. PMID: 39359403, PMCID: PMC11443969, DOI: 10.1093/pnasnexus/pgae423.Peer-Reviewed Original ResearchRetinal ganglion cellsBehavioral responsesRetinal ganglion cell typesVisual threatAlpha retinal ganglion cellsLooming stimuliThreatening stimuliMature miceGanglion cellsBehavioral reactionsUnique contributionsCell ablationVisual pathwayOutput neuronsEarly visual pathwayStimuliContextual signalsDefense responsesAerial predatorsEnvironmental context
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