Altered kinetics and benzodiazepine sensitivity of a GABAA receptor subunit mutation [γ2(R43Q)] found in human epilepsy
David N. Bowser,David A. Wagner,Cynthia Czajkowski,Brett A. Cromer,Michael W. Parker,Robyn H. Wallace,Louise A. Harkin,John C. Mulley,Carla Marini,Samuel F. Berkovic,David R. Williams,Mathew V. Jones,Steven Petrou +12 more
TLDR
Evidence is provided of impaired GABAA receptor function that could decrease the efficacy of transmission at inhibitory synapses, possibly generating a hyperexcitable neuronal state in thalamocortical networks of epileptic patients possessing the mutant subunit.Abstract:
The gamma-aminobutyric acid type A (GABA(A)) receptor mediates fast inhibitory synaptic transmission in the CNS. Dysfunction of the GABA(A) receptor would be expected to cause neuronal hyperexcitability, a phenomenon linked with epileptogenesis. We have investigated the functional consequences of an arginine-to-glutamine mutation at position 43 within the GABA(A) gamma(2)-subunit found in a family with childhood absence epilepsy and febrile seizures. Rapid-application experiments performed on receptors expressed in HEK-293 cells demonstrated that the mutation slows GABA(A) receptor deactivation and increases the rate of desensitization, resulting in an accumulation of desensitized receptors during repeated, short applications. In Xenopus laevis oocytes, two-electrode voltage-clamp analysis of steady-state currents obtained from alpha(1)beta(2)gamma(2) or alpha(1)beta(2)gamma(2)(R43Q) receptors did not reveal any differences in GABA sensitivity. However, differences in the benzodiazepine pharmacology of mutant receptors were apparent. Mutant receptors expressed in oocytes displayed reduced sensitivity to diazepam and flunitrazepam but not the imidazopyridine zolpidem. These results provide evidence of impaired GABA(A) receptor function that could decrease the efficacy of transmission at inhibitory synapses, possibly generating a hyperexcitable neuronal state in thalamocortical networks of epileptic patients possessing the mutant subunit.read more
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Epilepsy, E/I balance and GABAA receptor plasticity
TL;DR: The purpose of this review is to discuss recent findings highlighting the significance of GABAA receptor heterogeneity for the concept of E/I balance and its relevance for epilepsy, and to address the following issues: role for tonic inhibition, mediated by extrasynaptic GAB AA receptors, for controlling neuronal excitability; significance of chloride ion transport for maintenance of the E-I balance in adult brain; and molecular mechanisms underlying GabAA receptor regulation that are important for homoeostatic plasticity.
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Reduced cortical inhibition in a mouse model of familial childhood absence epilepsy
Heneu O. Tan,Christopher A. Reid,Frank Nicolai Single,Philip J. Davies,Cindy H. Chiu,Susan M. Murphy,Alison L. Clarke,Leanne M. Dibbens,Heinz Eric Krestel,John C. Mulley,Mathew V. Jones,Peter H. Seeburg,Bert Sakmann,Samuel F. Berkovic,Rolf Sprengel,Steven Petrou +15 more
TL;DR: A mouse model harboring a γ2 subunit point mutation (R43Q) found in a large Australian family demonstrated behavioral arrest associated with 6-to 7-Hz spike-and-wave discharges, which are blocked by ethosuximide, a first-line treatment for absence epilepsy in man.
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Mechanisms of human inherited epilepsies
TL;DR: This review first introduces the epilepsy syndromes linked to mutations in the various genes and collates the genetic and functional analysis of these genes, which should allow us to understand the underlying pathology of epilepsy ultimately providing novel therapeutic strategies to complete the clinic-bench-clinic cycle.
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Fever, genes, and epilepsy
Stéphanie Baulac,Isabelle Gourfinkel-An,Rima Nabbout,Gilles Huberfeld,José M. Serratosa,Eric LeGuern,Michel Baulac +6 more
TL;DR: The molecular defects identified in the genetic associations of FS and epileptic seizures are very attractive models to aid the understanding of epileptogenesis and susceptibility to seizure-provoking factors, especially fever.
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Ion Channels in Genetic Epilepsy: From Genes and Mechanisms to Disease-Targeted Therapies.
Julia Oyrer,Snezana Maljevic,Ingrid E. Scheffer,Samuel F. Berkovic,Steven Petrou,Christopher A. Reid +5 more
TL;DR: The genetic, molecular, and physiologic evidence supporting the pathogenic role of a number of different voltage- and ligand-activated ion channels in genetic epilepsy is reviewed and proposed disease mechanisms for each ion channel are reviewed.
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TL;DR: Impairment of potassium-dependent repolarization is likely to cause this age-specific epileptic syndrome.