Literature DB >> 25516101

Predicting novel histopathological microlesions in human epileptic brain through transcriptional clustering.

Fabien Dachet1, Shruti Bagla2, Gal Keren-Aviram3, Andrew Morton2, Karina Balan2, Laleh Saadat4, Tibor Valyi-Nagy5, William Kupsky6, Fei Song1, Edward Dratz3, Jeffrey A Loeb1.   

Abstract

Although epilepsy is associated with a variety of abnormalities, exactly why some brain regions produce seizures and others do not is not known. We developed a method to identify cellular changes in human epileptic neocortex using transcriptional clustering. A paired analysis of high and low spiking tissues recorded in vivo from 15 patients predicted 11 cell-specific changes together with their 'cellular interactome'. These predictions were validated histologically revealing millimetre-sized 'microlesions' together with a global increase in vascularity and microglia. Microlesions were easily identified in deeper cortical layers using the neuronal marker NeuN, showed a marked reduction in neuronal processes, and were associated with nearby activation of MAPK/CREB signalling, a marker of epileptic activity, in superficial layers. Microlesions constitute a common, undiscovered layer-specific abnormality of neuronal connectivity in human neocortex that may be responsible for many 'non-lesional' forms of epilepsy. The transcriptional clustering approach used here could be applied more broadly to predict cellular differences in other brain and complex tissue disorders.
© The Author (2014). Published by Oxford University Press on behalf of the Guarantors of Brain. All rights reserved. For Permissions, please email: journals.permissions@oup.com.

Entities:  

Keywords:  epilepsy genetics; epilepsy surgery; localization-related epilepsy; refractory epilepsy; transcriptomics

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Year:  2014        PMID: 25516101      PMCID: PMC4306820          DOI: 10.1093/brain/awu350

Source DB:  PubMed          Journal:  Brain        ISSN: 0006-8950            Impact factor:   13.501


  54 in total

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6.  Evidence of activated microglia in focal cortical dysplasia.

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7.  Activity-dependent gene expression correlates with interictal spiking in human neocortical epilepsy.

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10.  Pre-processing Agilent microarray data.

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  27 in total

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Review 2.  A Multidisciplinary Consensus for Clinical Care and Research Needs for Sturge-Weber Syndrome.

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Review 6.  Identifying targets for preventing epilepsy using systems biology of the human brain.

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7.  Mechanistic target of rapamycin complex 1 and 2 in human temporal lobe epilepsy.

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8.  DUSP4 appears to be a highly localized endogenous inhibitor of epileptic signaling in human neocortex.

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9.  Modulation of locomotor behaviors by location-specific epileptic spiking and seizures.

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Review 10.  What value can TSPO PET bring for epilepsy treatment?

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