Coding and Non-coding Transcriptome of Mesial Temporal Lobe Epilepsy: Critical Role of Small Non-coding RNAs

Overview

Journal Neurobiol Dis

Specialty Neurology

Date 2019 Sep 19

PMID 31533065

Citations 27

Authors

James D Mills

Erwin A van Vliet

Bei Jun Chen

Michael Janitz

Jasper J Anink

Johannes C Baayen

Sander Idema

Sasha Devore

Daniel Friedman

Beate Diehl

Maria Thom

Catherine Scott

Roland Thijs

Eleonora Aronica

Orrin Devinsky

Affiliations

Soon will be listed here.

Abstract

Our understanding of mesial temporal lobe epilepsy (MTLE), one of the most common form of drug-resistant epilepsy in humans, is derived mainly from clinical, imaging, and physiological data from humans and animal models. High-throughput gene expression studies of human MTLE have the potential to uncover molecular changes underlying disease pathogenesis along with novel therapeutic targets. Using RNA- and small RNA-sequencing in parrallel, we explored differentially expressed genes in the hippocampus and cortex of MTLE patients who had undergone surgical resection and non-epileptic controls. We identified differentially expressed genes in the hippocampus of MTLE patients and differentially expressed small RNAs across both the cortex and hippocampus. We found significant enrichment for astrocytic and microglial genes among up-regulated genes, and down regulation of neuron specific genes in the hippocampus of MTLE patients. The transcriptome profile of the small RNAs reflected disease state more robustly than mRNAs, even across brain regions which show very little pathology. While mRNAs segregated predominately by brain region for MTLE and controls, small RNAs segregated by disease state. In particular, our data suggest that specific miRNAs (e.g., let-7b-3p and let-7c-3p) may be key regulators of multiple pathways related to MTLE pathology. Further, we report a strong association of other small RNA species with MTLE pathology. As such we have uncovered novel elements that may contribute to the establishment and progression of MTLE pathogenesis and that could be leveraged as therapeutic targets.

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