Literature DB >> 26173779

Microglial Hv1 proton channel promotes cuprizone-induced demyelination through oxidative damage.

Junli Liu1,2, Daishi Tian2,3, Madhuvika Murugan2, Ukpong B Eyo2, Cheryl F Dreyfus4, Wei Wang3, Long-Jun Wu1,2.   

Abstract

NADPH oxidase (NOX)-dependent reactive oxygen species (ROS) production in inflammatory cells including microglia plays an important role in demyelination and free radical-mediated tissue injury in multiple sclerosis (MS). However, the mechanism underlying microglial ROS production and demyelination remains largely unknown. The voltage-gated proton channel, Hv1, is selectively expressed in microglia and is required for NOX-dependent ROS generation in the brain. In the present study, we sought to determine the role of microglial Hv1 proton channels in a mouse model of cuprizone-induced demyelination, a model for MS. Following cuprizone exposure, wild-type mice presented obvious demyelination, decreased myelin basic protein expression, loss of mature oligodendrocytes, and impaired motor coordination in comparison to mice on a normal chow diet. However, mice lacking Hv1 (Hv1(-/-) ) are partially protected from demyelination and motor deficits compared with those in wild-type mice. These rescued phenotypes in Hv1(-/-) mice in cuprizone-induced demyelination is accompanied by reduced ROS production, ameliorated microglial activation, increased oligodendrocyte progenitor cell (NG2) proliferation, and increased number of mature oligodendrocytes. These results demonstrate that the Hv1 proton channel is required for cuprizone-induced microglial oxidative damage and subsequent demyelination. Our study suggests that the microglial Hv1 proton channel is a unique target for controlling NOX-dependent ROS production in the pathogenesis of MS.
© 2015 International Society for Neurochemistry.

Entities:  

Keywords:  cuprizone; demyelination; microglia; multiple sclerosis; oligodendrocytes; voltage-gated proton channel Hv1

Mesh:

Substances:

Year:  2015        PMID: 26173779      PMCID: PMC4721248          DOI: 10.1111/jnc.13242

Source DB:  PubMed          Journal:  J Neurochem        ISSN: 0022-3042            Impact factor:   5.372


  43 in total

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Review 2.  Cellular and molecular neuropathology of the cuprizone mouse model: clinical relevance for multiple sclerosis.

Authors:  Jelle Praet; Caroline Guglielmetti; Zwi Berneman; Annemie Van der Linden; Peter Ponsaerts
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Review 4.  Advances in antioxidative therapy of multiple sclerosis.

Authors:  E Miller; B Wachowicz; I Majsterek
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Review 7.  Bidirectional microglia-neuron communication in the healthy brain.

Authors:  Ukpong B Eyo; Long-Jun Wu
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8.  Oxidative damage in multiple sclerosis lesions.

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9.  A new model of cuprizone-mediated demyelination/remyelination.

Authors:  Hilary H Sachs; Kathryn K Bercury; Daniela C Popescu; S Priya Narayanan; Wendy B Macklin
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2.  Expression of gp91phox and p22phox, catalytic subunits of NADPH oxidase, on microglia in Nasu-Hakola disease brains.

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6.  Disinhibition of Cathepsin C Caused by Cystatin F Deficiency Aggravates the Demyelination in a Cuprizone Model.

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Review 7.  Ion channels and transporters in microglial function in physiology and brain diseases.

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Review 8.  The role of microglia in multiple sclerosis.

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9.  Mechanistic insight into the suppression of microglial ROS production by voltage-gated proton channels (VSOP/Hv1).

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10.  The voltage-gated proton channel Hv1 promotes microglia-astrocyte communication and neuropathic pain after peripheral nerve injury.

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Journal:  Mol Brain       Date:  2021-06-28       Impact factor: 4.041
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