Literature DB >> 25710837

Microcircuits and their interactions in epilepsy: is the focus out of focus?

Jeanne T Paz1, John R Huguenard2.   

Abstract

Epileptic seizures represent dysfunctional neural networks dominated by excessive and/or hypersynchronous activity. Recent progress in the field has outlined two concepts regarding mechanisms of seizure generation, or ictogenesis. First, all seizures, even those associated with what have historically been thought of as 'primary generalized' epilepsies, appear to originate in local microcircuits and then propagate from that initial ictogenic zone. Second, seizures propagate through cerebral networks and engage microcircuits in distal nodes, a process that can be weakened or even interrupted by suppressing activity in such nodes. We describe various microcircuit motifs, with a special emphasis on one that has been broadly implicated in several epilepsies: feed-forward inhibition. Furthermore, we discuss how, in the dynamic network in which seizures propagate, focusing on circuit 'choke points' remote from the initiation site might be as important as that of the initial dysfunction, the seizure 'focus'.

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Year:  2015        PMID: 25710837      PMCID: PMC4561622          DOI: 10.1038/nn.3950

Source DB:  PubMed          Journal:  Nat Neurosci        ISSN: 1097-6256            Impact factor:   24.884


  107 in total

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4.  Dendritic but not somatic GABAergic inhibition is decreased in experimental epilepsy.

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7.  Massive and specific dysregulation of direct cortical input to the hippocampus in temporal lobe epilepsy.

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10.  Closed-loop optogenetic control of thalamus as a tool for interrupting seizures after cortical injury.

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Journal:  Nat Neurosci       Date:  2012-11-07       Impact factor: 24.884
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  88 in total

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3.  Dynamic, Cell-Type-Specific Roles for GABAergic Interneurons in a Mouse Model of Optogenetically Inducible Seizures.

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4.  Semaphorin 4D promotes inhibitory synapse formation and suppresses seizures in vivo.

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Review 7.  Resolving the Micro-Macro Disconnect to Address Core Features of Seizure Networks.

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8.  Distinct Thalamic Reticular Cell Types Differentially Modulate Normal and Pathological Cortical Rhythms.

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Review 9.  Toward a Mechanistic Understanding of Epileptic Networks.

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Journal:  Curr Neurol Neurosci Rep       Date:  2016-11       Impact factor: 5.081

10.  Deficiency of AMPAR-Palmitoylation Aggravates Seizure Susceptibility.

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Journal:  J Neurosci       Date:  2018-10-24       Impact factor: 6.167
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