A burst-dependent hippocampal excitability defect elicited by potassium at the developmental onset of spike-wave seizures in the Tottering mutant

A burst-dependent hippocampal excitability defect elicited by potassium at the developmental onset of spike-wave seizures in the Tottering mutant

Hippocampal CA3 pyramidal neurons in the adult epileptic mutant mouse tottering (tg) show normal intrinsic membrane properties, yet fire abnormally prolonged paroxysmal depolarizing shifts (PDS) during in vitro exposure to elevated extracellular potassium solutions. Intracellular recordings in immat...

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Veröffentlicht in:Brain research. Developmental brain research 1992-02, Vol.65 (2), p.205-210
Hauptverfasser: Helekar, Santosh A., Noebels, Jeffrey L.
Format: Artikel
Sprache:eng
Schlagworte:
Afterhyperpolarization
Aging - physiology
Animals
Biological and medical sciences
CA3 pyramidal neuron
Electroencephalography - drug effects
Electrophysiology
Epilepsy
Hippocampus - physiopathology
In Vitro Techniques
Medical sciences
Membrane Potentials - drug effects
Mice
Mice, Inbred C57BL
Mice, Neurologic Mutants
Nervous system involvement in other diseases. Miscellaneous
Neurology
Paroxysmal depolarizing shift
Phenotype
Potassium - pharmacology
Pyramidal Tracts - cytology
Pyramidal Tracts - physiology
Seizure-induced plasticity
Seizures - physiopathology
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Zusammenfassung:Hippocampal CA3 pyramidal neurons in the adult epileptic mutant mouse tottering (tg) show normal intrinsic membrane properties, yet fire abnormally prolonged paroxysmal depolarizing shifts (PDS) during in vitro exposure to elevated extracellular potassium solutions. Intracellular recordings in immature mutants reveal that this network burst abnormality is present during the developmental period that coincides with the onset of seizures in the mutant (19–20 postnatal days), and is significantly more pronounced at this age than at adulthood. These data are inconsistent with the hypothesis that the mutant PDS prolongation represents a secondary consequence of a prolonged history of repeated seizures and suggest that it may reflect a cellular epileptogenic phenotype more directly related to the primary neuropathological expression of the tg gene.
ISSN:0165-3806
DOI:10.1016/0165-3806(92)90180-5