2024
Molecular Profiling of Mouse Models of Loss or Gain of Function of the KCNT1 (Slack) Potassium Channel and Antisense Oligonucleotide Treatment
Sun F, Wang H, Wu J, Quraishi I, Zhang Y, Pedram M, Gao B, Jonas E, Nguyen V, Wu S, Mabrouk O, Jafar-nejad P, Kaczmarek L. Molecular Profiling of Mouse Models of Loss or Gain of Function of the KCNT1 (Slack) Potassium Channel and Antisense Oligonucleotide Treatment. Biomolecules 2024, 14: 1397. DOI: 10.3390/biom14111397.Peer-Reviewed Original ResearchWild-type miceKO miceSpectrum of epilepsy syndromesAntisense oligonucleotidesGain-of-function variantsAntisense oligonucleotide treatmentEpileptic phenotypePotassium channelsKCNT1Molecular profilingOligonucleotide treatmentAnimal modelsEpilepsy syndromesC-terminal mutationsIncreased expressionCerebral cortexMiceExpression of multiple proteinsComprehensive proteomic analysisDisease modelsCortical mitochondriaMolecular differencesDensity of mitochondrial cristaeMitochondrial membraneTreatment
2020
Impaired motor skill learning and altered seizure susceptibility in mice with loss or gain of function of the Kcnt1 gene encoding Slack (KNa1.1) Na+-activated K+ channels
Quraishi IH, Mercier MR, McClure H, Couture RL, Schwartz ML, Lukowski R, Ruth P, Kaczmarek LK. Impaired motor skill learning and altered seizure susceptibility in mice with loss or gain of function of the Kcnt1 gene encoding Slack (KNa1.1) Na+-activated K+ channels. Scientific Reports 2020, 10: 3213. PMID: 32081855, PMCID: PMC7035262, DOI: 10.1038/s41598-020-60028-z.Peer-Reviewed Original ResearchConceptsMaximum electroshock-induced seizuresEpilepsy of infancyPentylenetetrazole-induced seizuresVideo-EEG monitoringElectroshock-induced seizuresForms of epilepsyWild-type miceSlack channelsImpaired motor skillsProcedural motor learningMotor skillsWild-type animalsSevere intellectual disabilityOpen-field behaviorCortical seizuresKCNT1 geneSpontaneous seizuresFocal seizuresSeizure susceptibilitySeizure activityType miceMouse modelAnimal modelsInterictal spikesSeizures