Hydrogen peroxide modulates neuronal excitability and membrane properties in ventral horn neurons of the rat spinal cord. (7th September 2016)

Record Type:: Journal Article
Title:: Hydrogen peroxide modulates neuronal excitability and membrane properties in ventral horn neurons of the rat spinal cord. (7th September 2016)
Main Title:: Hydrogen peroxide modulates neuronal excitability and membrane properties in ventral horn neurons of the rat spinal cord
Authors:: Ohashi, Masayuki
Hirano, Toru
Watanabe, Kei
Shoji, Hirokazu
Ohashi, Nobuko
Baba, Hiroshi
Endo, Naoto
Kohno, Tatsuro
Abstract:: Highlights: This study investigated the effects of H2 O2 on neuronal excitability in rat ventral horn neurons. H2 O2 reduced neuronal excitability via activation of extrasynaptic GABAA receptor (GABAA -R). H2 O2 depressed both medium and slow AHP, indicating that H2 O2 might reduce SK channel conductance. Activation of extrasynaptic GABAA -R or SK channel might attenuate H2 O2 -induced neuronal damage. Abstract: Hydrogen peroxide (H2 O2 ), a reactive oxygen species, is an important signaling molecule for synaptic and neuronal activity in the central nervous system; it is produced excessively in brain ischemia and spinal cord injury. Although H2 O2 -mediated modulations of synaptic transmission have been reported in ventral horn (VH) neurons of the rat spinal cord, the effects of H2 O2 on neuronal excitability and membrane properties remain poorly understood. Accordingly, the present study investigated such effects using a whole-cell patch-clamp technique. The bath-application of H2 O2 decreased neuronal excitability accompanied by decreased input resistance, firing frequency, and action potential amplitude and by increased rheobase. These H2 O2 -mediated changes were induced by activation of extrasynaptic, but not synaptic, GABAA receptors. Indeed, GABAergic tonic currents were enhanced by H2 O2 . On the other hand, the amplitude of medium and slow afterhyperpolarization (mAHP and sAHP), which plays important roles in controlling neuronal excitability and is mediated by … (more)
Is Part Of:: Neuroscience. Volume 331(2016)
Journal:: Neuroscience
Issue:: Volume 331(2016)
Issue Display:: Volume 331, Issue 2016 (2016)
Year:: 2016
Volume:: 331
Issue:: 2016
Issue Sort Value:: 2016-0331-2016-0000
Page Start:: 206
Page End:: 220
Publication Date:: 2016-09-07
Subjects:: ACSF artificial cerebrospinal fluid -- AP action potential -- AHP afterhyperpolarization -- BIC bicuculline -- CNS central nervous system -- fAHP fast afterhyperpolarization -- GABA γ-aminobutyric acid -- IPSC inhibitory postsynaptic current -- IR-DIC infrared-differential interference contrast -- mAHP medium afterhyperpolarization -- mIPSC miniature inhibitory postsynaptic current -- Rin input resistance -- RMP resting membrane potential -- ROS reactive oxygen species -- sAHP slow afterhyperpolarization -- sIPSC spontaneous inhibitory postsynaptic current -- SK channel small conductance potassium channel -- STR strychnine -- TTX tetrodotoxin -- VH ventral horn
tonic current -- extrasynaptic GABAA receptor -- afterhyperpolarization -- small-conductance calcium-activated potassium channel -- patch clamp
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DOI:: 10.1016/j.neuroscience.2016.06.033 ↗
Languages:: English
ISSNs:: 0306-4522
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