A systems approach delivers a functional microRNA catalog and expanded targets for seizure suppression in temporal lobe epilepsy

Temporal lobe epilepsy is the most common drug-resistant form of epilepsy in adults. The reorganization of neural networks and the gene expression landscape underlying pathophysiologic network behavior in brain structures such as the hippocampus has been suggested to be controlled, in part, by micro...

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Autores principales: Venø, Morten T., Reschke, Cristina R., Morris, Gareth, Connolly, Niamh M. C., Su, Junyi, Yan, Yan, Engel, Tobias, Jimenez-Mateos, Eva M., Harder, Lea M., Pultz, Dennis, Haunsberger, Stefan J., Pal, Ajay, Heller, Janosch P., Campbell, Aoife, Langa, Elena, Brennan, Gary P., Conboy, Karen, Richardson, Amy, Norwood, Braxton A., Costard, Lara S., Neubert, Valentin, Del Gallo, Federico, Salvetti, Beatrice, Vangoor, Vamshidhar R., Sanz-Rodriguez, Amaya, Muilu, Juha, Fabene, Paolo F., Pasterkamp, R. Jeroen, Prehn, Jochen H. M., Schorge, Stephanie, Andersen, Jens S., Rosenow, Felix, Bauer, Sebastian, Kjems, Jørgen, Henshall, David C.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: National Academy of Sciences 2020
Materias:
Biological Sciences
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7355001/
https://www.ncbi.nlm.nih.gov/pubmed/32581127
http://dx.doi.org/10.1073/pnas.1919313117
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author Venø, Morten T.
Reschke, Cristina R.
Morris, Gareth
Connolly, Niamh M. C.
Su, Junyi
Yan, Yan
Engel, Tobias
Jimenez-Mateos, Eva M.
Harder, Lea M.
Pultz, Dennis
Haunsberger, Stefan J.
Pal, Ajay
Heller, Janosch P.
Campbell, Aoife
Langa, Elena
Brennan, Gary P.
Conboy, Karen
Richardson, Amy
Norwood, Braxton A.
Costard, Lara S.
Neubert, Valentin
Del Gallo, Federico
Salvetti, Beatrice
Vangoor, Vamshidhar R.
Sanz-Rodriguez, Amaya
Muilu, Juha
Fabene, Paolo F.
Pasterkamp, R. Jeroen
Prehn, Jochen H. M.
Schorge, Stephanie
Andersen, Jens S.
Rosenow, Felix
Bauer, Sebastian
Kjems, Jørgen
Henshall, David C.
author_facet Venø, Morten T.
Reschke, Cristina R.
Morris, Gareth
Connolly, Niamh M. C.
Su, Junyi
Yan, Yan
Engel, Tobias
Jimenez-Mateos, Eva M.
Harder, Lea M.
Pultz, Dennis
Haunsberger, Stefan J.
Pal, Ajay
Heller, Janosch P.
Campbell, Aoife
Langa, Elena
Brennan, Gary P.
Conboy, Karen
Richardson, Amy
Norwood, Braxton A.
Costard, Lara S.
Neubert, Valentin
Del Gallo, Federico
Salvetti, Beatrice
Vangoor, Vamshidhar R.
Sanz-Rodriguez, Amaya
Muilu, Juha
Fabene, Paolo F.
Pasterkamp, R. Jeroen
Prehn, Jochen H. M.
Schorge, Stephanie
Andersen, Jens S.
Rosenow, Felix
Bauer, Sebastian
Kjems, Jørgen
Henshall, David C.
author_sort Venø, Morten T.
collection PubMed
description Temporal lobe epilepsy is the most common drug-resistant form of epilepsy in adults. The reorganization of neural networks and the gene expression landscape underlying pathophysiologic network behavior in brain structures such as the hippocampus has been suggested to be controlled, in part, by microRNAs. To systematically assess their significance, we sequenced Argonaute-loaded microRNAs to define functionally engaged microRNAs in the hippocampus of three different animal models in two species and at six time points between the initial precipitating insult through to the establishment of chronic epilepsy. We then selected commonly up-regulated microRNAs for a functional in vivo therapeutic screen using oligonucleotide inhibitors. Argonaute sequencing generated 1.44 billion small RNA reads of which up to 82% were microRNAs, with over 400 unique microRNAs detected per model. Approximately half of the detected microRNAs were dysregulated in each epilepsy model. We prioritized commonly up-regulated microRNAs that were fully conserved in humans and designed custom antisense oligonucleotides for these candidate targets. Antiseizure phenotypes were observed upon knockdown of miR-10a-5p, miR-21a-5p, and miR-142a-5p and electrophysiological analyses indicated broad safety of this approach. Combined inhibition of these three microRNAs reduced spontaneous seizures in epileptic mice. Proteomic data, RNA sequencing, and pathway analysis on predicted and validated targets of these microRNAs implicated derepressed TGF-β signaling as a shared seizure-modifying mechanism. Correspondingly, inhibition of TGF-β signaling occluded the antiseizure effects of the antagomirs. Together, these results identify shared, dysregulated, and functionally active microRNAs during the pathogenesis of epilepsy which represent therapeutic antiseizure targets.
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spelling pubmed-73550012020-07-24 A systems approach delivers a functional microRNA catalog and expanded targets for seizure suppression in temporal lobe epilepsy Venø, Morten T. Reschke, Cristina R. Morris, Gareth Connolly, Niamh M. C. Su, Junyi Yan, Yan Engel, Tobias Jimenez-Mateos, Eva M. Harder, Lea M. Pultz, Dennis Haunsberger, Stefan J. Pal, Ajay Heller, Janosch P. Campbell, Aoife Langa, Elena Brennan, Gary P. Conboy, Karen Richardson, Amy Norwood, Braxton A. Costard, Lara S. Neubert, Valentin Del Gallo, Federico Salvetti, Beatrice Vangoor, Vamshidhar R. Sanz-Rodriguez, Amaya Muilu, Juha Fabene, Paolo F. Pasterkamp, R. Jeroen Prehn, Jochen H. M. Schorge, Stephanie Andersen, Jens S. Rosenow, Felix Bauer, Sebastian Kjems, Jørgen Henshall, David C. Proc Natl Acad Sci U S A Biological Sciences Temporal lobe epilepsy is the most common drug-resistant form of epilepsy in adults. The reorganization of neural networks and the gene expression landscape underlying pathophysiologic network behavior in brain structures such as the hippocampus has been suggested to be controlled, in part, by microRNAs. To systematically assess their significance, we sequenced Argonaute-loaded microRNAs to define functionally engaged microRNAs in the hippocampus of three different animal models in two species and at six time points between the initial precipitating insult through to the establishment of chronic epilepsy. We then selected commonly up-regulated microRNAs for a functional in vivo therapeutic screen using oligonucleotide inhibitors. Argonaute sequencing generated 1.44 billion small RNA reads of which up to 82% were microRNAs, with over 400 unique microRNAs detected per model. Approximately half of the detected microRNAs were dysregulated in each epilepsy model. We prioritized commonly up-regulated microRNAs that were fully conserved in humans and designed custom antisense oligonucleotides for these candidate targets. Antiseizure phenotypes were observed upon knockdown of miR-10a-5p, miR-21a-5p, and miR-142a-5p and electrophysiological analyses indicated broad safety of this approach. Combined inhibition of these three microRNAs reduced spontaneous seizures in epileptic mice. Proteomic data, RNA sequencing, and pathway analysis on predicted and validated targets of these microRNAs implicated derepressed TGF-β signaling as a shared seizure-modifying mechanism. Correspondingly, inhibition of TGF-β signaling occluded the antiseizure effects of the antagomirs. Together, these results identify shared, dysregulated, and functionally active microRNAs during the pathogenesis of epilepsy which represent therapeutic antiseizure targets. National Academy of Sciences 2020-07-07 2020-06-24 /pmc/articles/PMC7355001/ /pubmed/32581127 http://dx.doi.org/10.1073/pnas.1919313117 Text en Copyright © 2020 the Author(s). Published by PNAS. https://creativecommons.org/licenses/by-nc-nd/4.0/ https://creativecommons.org/licenses/by-nc-nd/4.0/This open access article is distributed under Creative Commons Attribution-NonCommercial-NoDerivatives License 4.0 (CC BY-NC-ND) (https://creativecommons.org/licenses/by-nc-nd/4.0/) .
spellingShingle Biological Sciences
Venø, Morten T.
Reschke, Cristina R.
Morris, Gareth
Connolly, Niamh M. C.
Su, Junyi
Yan, Yan
Engel, Tobias
Jimenez-Mateos, Eva M.
Harder, Lea M.
Pultz, Dennis
Haunsberger, Stefan J.
Pal, Ajay
Heller, Janosch P.
Campbell, Aoife
Langa, Elena
Brennan, Gary P.
Conboy, Karen
Richardson, Amy
Norwood, Braxton A.
Costard, Lara S.
Neubert, Valentin
Del Gallo, Federico
Salvetti, Beatrice
Vangoor, Vamshidhar R.
Sanz-Rodriguez, Amaya
Muilu, Juha
Fabene, Paolo F.
Pasterkamp, R. Jeroen
Prehn, Jochen H. M.
Schorge, Stephanie
Andersen, Jens S.
Rosenow, Felix
Bauer, Sebastian
Kjems, Jørgen
Henshall, David C.
A systems approach delivers a functional microRNA catalog and expanded targets for seizure suppression in temporal lobe epilepsy
title A systems approach delivers a functional microRNA catalog and expanded targets for seizure suppression in temporal lobe epilepsy
title_full A systems approach delivers a functional microRNA catalog and expanded targets for seizure suppression in temporal lobe epilepsy
title_fullStr A systems approach delivers a functional microRNA catalog and expanded targets for seizure suppression in temporal lobe epilepsy
title_full_unstemmed A systems approach delivers a functional microRNA catalog and expanded targets for seizure suppression in temporal lobe epilepsy
title_short A systems approach delivers a functional microRNA catalog and expanded targets for seizure suppression in temporal lobe epilepsy
title_sort systems approach delivers a functional microrna catalog and expanded targets for seizure suppression in temporal lobe epilepsy
topic Biological Sciences
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7355001/
https://www.ncbi.nlm.nih.gov/pubmed/32581127
http://dx.doi.org/10.1073/pnas.1919313117
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