Glia-derived Inhibitors of Axonal Regrowth : Implication for the Molecular Strategy of Axonal Regeneration
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概要
- 論文の詳細を見る
Axonal injury causes fatal damage to the neuron because of the poor regrowth of the injured axon. This phenomenon is one of the most critical reasons why neurological diseases are currently intractable. Recent studies have revealed that a part of the poor axonal regeneration is caused by the presence of the inhibitors to axonal regrowth, derived from glial cells surrounding the axon. Known molecules such as chondroitin sulfate proteoglycan and myelin-associated glycoprotein (MAG), derived from the astrocyte and the oligodendrocyte, respectively, are thought to be involved in the inhibition of the axonal regeneration. Here, we summarize the current findings on regarding the actions of these molecules, and survey strategies for treating the axonal injury from clinical aspects.
- 新潟大学の論文
著者
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Igarashi Michihiro
Division Of Molecular And Cellular Biology Graduate School Of Medical And Dental Sciences Niigata Un
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Igarashi Michihiro
Division Of Molecular And Cellular Biology Niigata University:center For Trans-disciplinary Research
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SATO Michiyuki
Division of Molecular and Cellular Biology, Niigata University
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Sato Michiyuki
Division Of Molecular And Cellular Biology Niigata University:division Of Molecular And Orthopedics Graduate School Of Medical And Dental Sciences Niigata University:center For Trans-disciplinary Research Niigata University
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- Glia-derived Inhibitors of Axonal Regrowth : Implication for the Molecular Strategy of Axonal Regeneration