Literature DB >> 19385061

Impaired astrocytic gap junction coupling and potassium buffering in a mouse model of tuberous sclerosis complex.

Lin Xu1, Ling-Hui Zeng, Michael Wong.   

Abstract

Abnormalities in astrocytes occur in the brains of patients with Tuberous Sclerosis Complex (TSC) and may contribute to the pathogenesis of neurological dysfunction in this disease. Here, we report that knock-out mice with Tsc1 gene inactivation in glia (Tsc1(GFAP)CKO mice) exhibit decreased expression of the astrocytic connexin protein, Cx43, and an associated impairment in gap junction coupling between astrocytes. Correspondingly, hippocampal slices from Tsc1(GFAP)CKO mice have increased extracellular potassium concentration in response to stimulation. This impaired potassium buffering can be attributed to abnormal gap junction coupling, as a gap junction inhibitor elicits an additional increase in potassium concentration in control, but not Tsc1(GFAP)CKO slices. Furthermore, treatment with a mammalian target of rapamycin inhibitor reverses the deficient Cx43 expression and impaired potassium buffering. These findings suggest that Tsc1 inactivation in astrocytes causes defects in astrocytic gap junction coupling and potassium clearance, which may contribute to epilepsy in Tsc1(GFAP)CKO mice.

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Year:  2009        PMID: 19385061      PMCID: PMC2764295          DOI: 10.1016/j.nbd.2009.01.010

Source DB:  PubMed          Journal:  Neurobiol Dis        ISSN: 0969-9961            Impact factor:   5.996


  47 in total

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2.  Sodium pump activity, not glial spatial buffering, clears potassium after epileptiform activity induced in the dentate gyrus.

Authors:  Z Q Xiong; J L Stringer
Journal:  J Neurophysiol       Date:  2000-03       Impact factor: 2.714

Review 3.  Potassium buffering in the central nervous system.

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Journal:  Neuroscience       Date:  2004       Impact factor: 3.590

4.  Functional specialization and topographic segregation of hippocampal astrocytes.

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5.  Astrocytic regulation of the recovery of extracellular potassium after seizures in vivo.

Authors:  Z Q Xiong; J L Stringer
Journal:  Eur J Neurosci       Date:  1999-05       Impact factor: 3.386

6.  Cyclosporine induces epileptiform activity in an in vitro seizure model.

Authors:  M Wong; K A Yamada
Journal:  Epilepsia       Date:  2000-03       Impact factor: 5.864

7.  Connexin 43 mRNA expression in two experimental models of epilepsy.

Authors:  K Elisevich; S A Rempel; B Smith; N Allar
Journal:  Mol Chem Neuropathol       Date:  1997 Sep-Dec

8.  Rapamycin prevents epilepsy in a mouse model of tuberous sclerosis complex.

Authors:  Ling-Hui Zeng; Lin Xu; David H Gutmann; Michael Wong
Journal:  Ann Neurol       Date:  2008-04       Impact factor: 10.422

9.  Effects of barium on stimulus-induced changes in [K+]o and field potentials in dentate gyrus and area CA1 of human epileptic hippocampus.

Authors:  S Gabriel; A Kivi; R Kovacs; T N Lehmann; W R Lanksch; H J Meencke; U Heinemann
Journal:  Neurosci Lett       Date:  1998-06-19       Impact factor: 3.046

10.  Properties of human glial cells associated with epileptic seizure foci.

Authors:  A Bordey; H Sontheimer
Journal:  Epilepsy Res       Date:  1998-09       Impact factor: 3.045
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  30 in total

1.  Inflammatory mechanisms contribute to the neurological manifestations of tuberous sclerosis complex.

Authors:  Bo Zhang; Jia Zou; Nicholas R Rensing; Meihua Yang; Michael Wong
Journal:  Neurobiol Dis       Date:  2015-05-21       Impact factor: 5.996

2.  Noradrenergic β-Adrenoceptor-Mediated Intracellular Molecular Mechanism of Na-K ATPase Subunit Expression in C6 Cells.

Authors:  Megha Amar; Abhishek Singh; Birendra Nath Mallick
Journal:  Cell Mol Neurobiol       Date:  2017-03-28       Impact factor: 5.046

3.  The impact of the glial spatial buffering on the K(+) Nernst potential.

Authors:  H R Noori
Journal:  Cogn Neurodyn       Date:  2011-07-19       Impact factor: 5.082

Review 4.  Epilepsy related to developmental tumors and malformations of cortical development.

Authors:  Eleonora Aronica; Peter B Crino
Journal:  Neurotherapeutics       Date:  2014-04       Impact factor: 7.620

Review 5.  Epilepsy and astrocyte energy metabolism.

Authors:  Detlev Boison; Christian Steinhäuser
Journal:  Glia       Date:  2017-10-17       Impact factor: 7.452

Review 6.  Role of astrocytes in epilepsy.

Authors:  Douglas A Coulter; Christian Steinhäuser
Journal:  Cold Spring Harb Perspect Med       Date:  2015-03-02       Impact factor: 6.915

Review 7.  Mechanisms of neurocognitive dysfunction and therapeutic considerations in tuberous sclerosis complex.

Authors:  Peter Tsai; Mustafa Sahin
Journal:  Curr Opin Neurol       Date:  2011-04       Impact factor: 5.710

8.  Intracellular polyamines enhance astrocytic coupling.

Authors:  Jan Benedikt; Mikhail Inyushin; Yuriy V Kucheryavykh; Yomarie Rivera; Lilia Y Kucheryavykh; Colin G Nichols; Misty J Eaton; Serguei N Skatchkov
Journal:  Neuroreport       Date:  2012-12-05       Impact factor: 1.837

Review 9.  "Targeting astrocytes in CNS injury and disease: A translational research approach".

Authors:  Angela R Filous; Jerry Silver
Journal:  Prog Neurobiol       Date:  2016-03-26       Impact factor: 11.685

10.  Microglial activation during epileptogenesis in a mouse model of tuberous sclerosis complex.

Authors:  Bo Zhang; Jia Zou; Lirong Han; Nicholas Rensing; Michael Wong
Journal:  Epilepsia       Date:  2016-06-06       Impact factor: 5.864
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