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Literature DB >> 18439402

Astrocytes in the epileptic brain.

Jonathon Wetherington¹, Geidy Serrano, Ray Dingledine.

Abstract

The roles that astrocytes play in the evolution of abnormal network excitability in chronic neurological disorders involving brain injury, such as acquired epilepsy, are receiving renewed attention due to improved understanding of the molecular events underpinning the physiological functions of astrocytes. In epileptic tissue, evidence is pointing to enhanced chemical signaling and disrupted linkage between water and potassium balance by reactive astrocytes, which together conspire to enhance local synchrony in hippocampal microcircuits. Reactive astrocytes in epileptic tissue both promote and oppose seizure development through a variety of specific mechanisms; the new findings suggest several novel astrocyte-related targets for drug development.

Entities: Chemical Disease

Mesh：

Year: 2008 PMID： 18439402 PMCID： PMC4124883 DOI： 10.1016/j.neuron.2008.04.002

Source DB: PubMed Journal: Neuron ISSN： 0896-6273 Impact factor: 17.173

117 in total

1. An astrocytic basis of epilepsy.

Authors: Guo-Feng Tian; Hooman Azmi; Takahiro Takano; Qiwu Xu; Weiguo Peng; Jane Lin; NancyAnn Oberheim; Nanhong Lou; Xiaohai Wang; H Ronald Zielke; Jian Kang; Maiken Nedergaard
Journal: Nat Med Date: 2005-08-14 Impact factor: 53.440

Review 2. Astrocyte-endothelial interactions at the blood-brain barrier.

Authors: N Joan Abbott; Lars Rönnbäck; Elisabeth Hansson
Journal: Nat Rev Neurosci Date: 2006-01 Impact factor: 34.870

Review 3. Microcircuits in action--from CPGs to neocortex.

Authors: Sten Grillner; Henry Markram; Erik De Schutter; Gilad Silberberg; Fiona E N LeBeau
Journal: Trends Neurosci Date: 2005-10 Impact factor: 13.837

Review 4. Astrocyte dysfunction in neurological disorders: a molecular perspective.

Authors: Gerald Seifert; Karl Schilling; Christian Steinhäuser
Journal: Nat Rev Neurosci Date: 2006-03 Impact factor: 34.870

5. Murine glia express the immunosuppressive cytokine, interleukin-10, following exposure to Borrelia burgdorferi or Neisseria meningitidis.

Authors: Amy Rasley; Susanne L Tranguch; Dana M Rati; Ian Marriott
Journal: Glia Date: 2006-04-15 Impact factor: 7.452

6. Time course changes of estrogen receptor alpha expression in the adult rat hippocampus after kainic acid-induced status epilepticus.

Authors: Daisuke Tokuhara; Toshiaki Yokoi; Ryouichi Nakajima; Hideji Hattori; Osamu Matsuoka; Tsunekazu Yamano
Journal: Acta Neuropathol Date: 2005-09-15 Impact factor: 17.088

7. Up-regulation of hippocampal metabotropic glutamate receptor 5 in temporal lobe epilepsy patients.

Authors: Robbert G E Notenboom; David R Hampson; Gerard H Jansen; Peter C van Rijen; Cees W M van Veelen; Onno van Nieuwenhuizen; Pierre N E de Graan
Journal: Brain Date: 2005-11-25 Impact factor: 13.501

8. Modulator effects of interleukin-1beta and tumor necrosis factor-alpha on AMPA-induced excitotoxicity in mouse organotypic hippocampal slice cultures.

Authors: Liliana Bernardino; Sara Xapelli; Ana P Silva; Birthe Jakobsen; Frantz R Poulsen; Catarina R Oliveira; Annamaria Vezzani; João O Malva; Jens Zimmer
Journal: J Neurosci Date: 2005-07-20 Impact factor: 6.167

Review 9. Astrocytes, from brain glue to communication elements: the revolution continues.

Authors: Andrea Volterra; Jacopo Meldolesi
Journal: Nat Rev Neurosci Date: 2005-08 Impact factor: 34.870

Review 10. Brain inflammation in epilepsy: experimental and clinical evidence.

Authors: Annamaria Vezzani; Tiziana Granata
Journal: Epilepsia Date: 2005-11 Impact factor: 5.864

144 in total

1. Upregulation of adenosine kinase in astrocytes in experimental and human temporal lobe epilepsy.

Authors: Eleonora Aronica; Emanuele Zurolo; Anand Iyer; Marjolein de Groot; Jasper Anink; Caterina Carbonell; Erwin A van Vliet; Johannes C Baayen; Detlev Boison; Jan A Gorter
Journal: Epilepsia Date: 2011-06-02 Impact factor: 5.864

Review 2. Blood-brain barrier dysfunction, TGFβ signaling, and astrocyte dysfunction in epilepsy.

Authors: Uwe Heinemann; Daniela Kaufer; Alon Friedman
Journal: Glia Date: 2012-02-29 Impact factor: 7.452

3. Losing Touch With Your Astrocytes Can Cause Epilepsy.

Authors: Chris G Dulla
Journal: Epilepsy Curr Date: 2015 Nov-Dec Impact factor: 7.500

4. Glial responses to implanted electrodes in the brain.

Authors: Joseph W Salatino; Kip A Ludwig; Takashi D Y Kozai; Erin K Purcell
Journal: Nat Biomed Eng Date: 2017-11-10 Impact factor: 25.671

Review 5. Glial adenosine kinase--a neuropathological marker of the epileptic brain.

Authors: Eleonora Aronica; Ursula S Sandau; Anand Iyer; Detlev Boison
Journal: Neurochem Int Date: 2013-02-04 Impact factor: 3.921

Review 6. Glial-neuronal interactions--implications for plasticity and drug addiction.

Authors: Sukumar Vijayaraghavan
Journal: AAPS J Date: 2009-02-24 Impact factor: 4.009

Review 7. Glutamate and tumor-associated epilepsy: glial cell dysfunction in the peritumoral environment.

Authors: Susan C Buckingham; Stefanie Robel
Journal: Neurochem Int Date: 2013-02-04 Impact factor: 3.921

Review 8. Physiological bases of the K+ and the glutamate/GABA hypotheses of epilepsy.

Authors: Mauro DiNuzzo; Silvia Mangia; Bruno Maraviglia; Federico Giove
Journal: Epilepsy Res Date: 2014-04-21 Impact factor: 3.045

Review 9. Turning down the volume: Astrocyte volume change in the generation and termination of epileptic seizures.

Authors: Thomas R Murphy; Devin K Binder; Todd A Fiacco
Journal: Neurobiol Dis Date: 2017-04-22 Impact factor: 5.996

10. Three-dimensional relationships between perisynaptic astroglia and human hippocampal synapses.

Authors: Mark R Witcher; Yong D Park; Mark R Lee; Suash Sharma; Kristen M Harris; Sergei A Kirov
Journal: Glia Date: 2010-04 Impact factor: 7.452