2015
The sodium-activated potassium channel Slack is required for optimal cognitive flexibility in mice
Bausch AE, Dieter R, Nann Y, Hausmann M, Meyerdierks N, Kaczmarek LK, Ruth P, Lukowski R. The sodium-activated potassium channel Slack is required for optimal cognitive flexibility in mice. Learning & Memory 2015, 22: 323-335. PMID: 26077685, PMCID: PMC4478330, DOI: 10.1101/lm.037820.114.Peer-Reviewed Original ResearchConceptsFragile X Mental Retardation ProteinCognitive flexibilityFragile X syndromeNormal working memoryAspects of memoryIntellectual disabilityMental retardation proteinSpatial learning capabilitiesSlack channelsWorking memoryBehavioral tasksReference memorySodium-activated potassium channel SlackHigher brain functionsUnfamiliar situationsBrain functionSevere intellectual disabilityMemoryIntellectual developmentSodium-activated potassium channelsNull mouse modelGeneral locomotor activityX syndromeProper functionLearning capabilities
2012
Regulation of Neuronal Excitability by Interaction of Fragile X Mental Retardation Protein with Slack Potassium Channels
Zhang Y, Brown MR, Hyland C, Chen Y, Kronengold J, Fleming MR, Kohn AB, Moroz LL, Kaczmarek LK. Regulation of Neuronal Excitability by Interaction of Fragile X Mental Retardation Protein with Slack Potassium Channels. Journal Of Neuroscience 2012, 32: 15318-15327. PMID: 23115170, PMCID: PMC3518385, DOI: 10.1523/jneurosci.2162-12.2012.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAnisomycinAplysiaCHO CellsCloning, MolecularCricetinaeCricetulusElectrophysiological PhenomenaFragile X Mental Retardation ProteinImmunohistochemistryImmunoprecipitationNeuronsPatch-Clamp TechniquesPotassium ChannelsProtein Synthesis InhibitorsRNA InterferenceRNA, Small InterferingSodiumSynapsesConceptsNeuronal excitabilitySlack potassium channelsTetrodotoxin-sensitive componentCurrent-clamp recordingsSlack channelsMental retardation proteinBag cell neuronsSustained componentIntracellular injectionNeuronal firingInhibitory periodSynaptic stimulationPotassium currentCell neuronsAction potentialsOutward currentsPotassium channelsProlonged changesNeuronsAplysia bag cell neuronsProtein synthesis inhibitor anisomycinExcitabilityFragile X Mental Retardation ProteinCommon formIntellectual disability
2010
Fragile X Mental Retardation Protein Is Required for Rapid Experience-Dependent Regulation of the Potassium Channel Kv3.1b
Strumbos JG, Brown MR, Kronengold J, Polley DB, Kaczmarek LK. Fragile X Mental Retardation Protein Is Required for Rapid Experience-Dependent Regulation of the Potassium Channel Kv3.1b. Journal Of Neuroscience 2010, 30: 10263-10271. PMID: 20685971, PMCID: PMC3485078, DOI: 10.1523/jneurosci.1125-10.2010.Peer-Reviewed Original ResearchConceptsMental retardation proteinAnterior ventral cochlear nucleusFragile X Mental Retardation ProteinRNA-binding proteinProtein translationFMRPWild-type animalsSpecific mRNAsSound localization circuitVentral cochlear nucleusBrainstem synaptosomesExperience-dependent regulationProtein levelsAmplitude-modulated stimuliProteinTrapezoid bodyCochlear nucleusMale miceMedial nucleusNeuronal activityPotassium currentWT controlsSynaptic plasticityTonotopic axisAcoustic stimulation