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Literature DB >> 7444469

Giant synaptic potential hypothesis for epileptiform activity.

Abstract

According to one hypothesis, the paroxysmal depolarizing shift observed in the penicillin model of epilepsy results from a giant excitatory postsynaptic potential. This hypothesis has recently been questioned, primarily because it has never been subjected to rigorous experimental examination. Four quantitative predictions were derived from this hypothesis and tested in CA3 pyramidal neurons of the hippocampus. The four critical predictions concern the behavior of the paroxysmal depolarizing shift under current- and voltage-clamp conditions as a function of membrane potential. The experiments confirmed all four predictions.

Entities: Chemical Disease Gene

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Substances：
Penicillin G

Year: 1981 PMID： 7444469 DOI： 10.1126/science.7444469

Source DB: PubMed Journal: Science ISSN： 0036-8075 Impact factor: 47.728

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Cited

57 in total

1. GABAergic inhibition suppresses paroxysmal network activity in the neonatal rodent hippocampus and neocortex.

Authors: J E Wells; J T Porter; A Agmon
Journal: J Neurosci Date: 2000-12-01 Impact factor: 6.167

2. Contributions of voltage-gated Ca2+ channels in the proximal versus distal dendrites to synaptic integration in prefrontal cortical neurons.

Authors: J K Seamans; N A Gorelova; C R Yang
Journal: J Neurosci Date: 1997-08-01 Impact factor: 6.167

Review 3. High-frequency oscillations and other electrophysiological biomarkers of epilepsy: underlying mechanisms.

Authors: Richard J Staba; Anatol Bragin
Journal: Biomark Med Date: 2011-10 Impact factor: 2.851

4. Astrocytes get in the act in epilepsy.

Authors: Michael A Rogawski
Journal: Nat Med Date: 2005-09 Impact factor: 53.440

5. Neurons do the wave (and the spike!) during neocortical seizures.

Authors: Carl E Stafstrom
Journal: Epilepsy Curr Date: 2005 Mar-Apr Impact factor: 7.500

Review 6. Living systems are tonically inhibited, autonomous optimizers, and disinhibition coupled to variability generation is their major organizing principle: inhibitory command-control at levels of membrane, genome, metabolism, brain, and society.

Authors: E Roberts
Journal: Neurochem Res Date: 1991-03 Impact factor: 3.996

Giant synaptic potential hypothesis for epileptiform activity.

1. GABAergic inhibition suppresses paroxysmal network activity in the neonatal rodent hippocampus and neocortex.

2. Contributions of voltage-gated Ca2+ channels in the proximal versus distal dendrites to synaptic integration in prefrontal cortical neurons.

Review 3. High-frequency oscillations and other electrophysiological biomarkers of epilepsy: underlying mechanisms.

4. Astrocytes get in the act in epilepsy.

5. Neurons do the wave (and the spike!) during neocortical seizures.

Review 6. Living systems are tonically inhibited, autonomous optimizers, and disinhibition coupled to variability generation is their major organizing principle: inhibitory command-control at levels of membrane, genome, metabolism, brain, and society.

7. Focal generation of paroxysmal fast runs during electrographic seizures.

8. Carbonic anhydrase inhibition by acetazolamide reduces in vitro epileptiform synchronization.

9. Local synaptic release of glutamate from neurons in the rat hypothalamic arcuate nucleus.

10. Propagation velocity of epileptiform activity in the hippocampus.