2024
Disease-causing Slack potassium channel mutations produce opposite effects on excitability of excitatory and inhibitory neurons
Wu J, Quraishi I, Zhang Y, Bromwich M, Kaczmarek L. Disease-causing Slack potassium channel mutations produce opposite effects on excitability of excitatory and inhibitory neurons. Cell Reports 2024, 43: 113904. PMID: 38457342, PMCID: PMC11013952, DOI: 10.1016/j.celrep.2024.113904.Peer-Reviewed Original ResearchInhibitory neuronsRegulation of neuronal excitabilityPotassium channel mutationsVoltage-dependent sodiumInhibitory cortical neuronsGain-of-function mutationsAxon initial segmentKCNT1 geneNeuronal excitabilityChannel subunitsChannel mutationsNetwork hyperexcitabilityMouse modelNeuron typesCortical neuronsTreat epilepsyNeuronsExcitable neuronsNeurological disordersSevere intellectual disabilityMutationsInitial segmentKCNT1ExpressionHyperexcitability
2020
Mechanisms underlying auditory processing deficits in Fragile X syndrome
McCullagh EA, Rotschafer SE, Auerbach BD, Klug A, Kaczmarek LK, Cramer KS, Kulesza RJ, Razak KA, Lovelace JW, Lu Y, Koch U, Wang Y. Mechanisms underlying auditory processing deficits in Fragile X syndrome. The FASEB Journal 2020, 34: 3501-3518. PMID: 32039504, PMCID: PMC7347277, DOI: 10.1096/fj.201902435r.Peer-Reviewed Original ResearchConceptsAuditory dysfunctionAutism spectrum disorderAuditory brainstem circuitsFragile X syndromeAuditory processing deficitsCommon monogenetic causeNetwork hyperexcitabilityBrainstem circuitsAuditory pathwayAuditory cortexNeuronal plasticityAnimal modelsAuditory hypersensitivitySynaptic developmentHyperacusisMonogenetic causeDysfunctionX syndromeAberrant synaptic developmentBody of dataUnderlying mechanismMultiple mechanismsHuman therapySyndromeProcessing deficits