Potassium Channels of Glial Cells: Distribution and Function
スポンサーリンク
概要
- 論文の詳細を見る
Firing of neurons changes the extracellular concentration of K+ ions ([K+]o). Glial cells have the ability to maintain [K+]o at a constant level. This function has been called “K+-spatial buffering”. K+ channels are believed to be involved in K+-spatial buffering. Kir4.1 in retinal glial cells and Kir2.1, Kir2.3 and Kv1.5 in Schwann cells have been identified. All of these K+ channels show polarized distribution, which enables the channels to transport K+ ions to appropriate regions such as blood vessels and the vitreous body. These channels have a consensus C-terminal sequence that can bind a protein containing PDZ (PSD-95/dlg/ZO1) domains, which may regulate the distribution of the channels. Kir4.1 is predominantly expressed in membranes adjacent to basement membranes. Laminin, a component of basement membranes, is necessary for the surface expression of Kir4.1 in cultured retinal glial cells, suggesting that an extracellular signal regulates the function of glial cells. In some cases, K+ buffering has been considered to couple tightly with water flux. Actually the aquaporin-4 water channel has been found to colocalize with Kir4.1 in retinal glial cells. Recent studies of K+ channels have elucidated the mechanisms of old well-known phenomena and present new unknown roles of glial cells.
- 社団法人 日本薬理学会の論文
- 2001-09-01
著者
-
Horio Yoshiyuki
Department Of Pharmacology Sapporo Medical School Of Medicine
-
Horio Yoshiyuki
Department Of Pharmacology Ii Faculty Of Medicine Osaka University
関連論文
- OJ-103 Role of Intra-mitochondrial GSK-3β in Bax Regulation And Antiapoptotic Resistance of Cardiomyocytes(Cell death, apoptosis/necrosis(M),Oral Presentation(Japanese),The 72nd Annual Scientific Meeting of the Japanese Circulation Society)
- PE-545 Distinct Roles of FOXO Subtypes in SIRT1-mediated Mn-SOD Up-regulation under Oxidative Stress(PE091,Molecular Biology (M),Poster Session (English),The 73rd Annual Scientific Meeting of the Japanese Circulation Society)
- DPE-012 Activation of SIRT1, a Histone/Protein Deacetylase, by Resveratrol Up-regulates MnSOD and Suppresses the Progression of Heart Failure(DPE02,Heart Failure, Basic (M),Digital Poster Session (English),The 73rd Annual Scientific Meeting of The Japanes
- PE-333 Resveratrol, An Activator of Longevity Protein SIRT1, Suppresses Progression of Heart Failure Through SIRT1-mediated Cardiomyocyte Protection Against Oxidant Stress(Heart failure, basic(03)(M),Poster Session(English),The 72nd Annual Scientific Meet
- PE-443 Role of Glycogen Synthase Kinase-3 β in Cardiomyocyte Protection by Erythropoietin(Heart failure, basic-5, The 71st Annual Scientific Meeting of the Japanese Circulation Society)
- OE-312 Nuclear Localization of SIRT1, a Novel Mechanism of Cardiomyocyte Protection in Failing Hearts, is Achieved by PI3K/Akt Signaling(Heart failure, basic-1, The 71st Annual Scientific Meeting of the Japanese Circulation Society)
- PE-601 Molecular Mechanisms of Nucleo-cytoplasmic Shuttling of SIRT1, a Histone Deacetylase, and Its Pathopysicological Roles in Cardiomyocytes(Molecular biology, myocardium-2 (M) PE106,Poster Session (English),The 70th Anniversary Annual Scientific Meeti
- Cloning and Characterization of Homolog of Sir2, a Regulator of Yeast Life Span and Senescence, in the Mouse
- Ion channels and diseases
- Inwardly Rectifying K^+ Channel in Retinal Muller Cells : Comparison with the K_-2/Kir4.1 Channel Expressed in HEK293T Cells
- Transcriptional Regulation of Neuronal Genes and Its Effect on Neural Functions : NAD-Dependent Histone Deacetylase SIRT1 (Sir2α)
- IS056 Identification of Critical Amino Acid Residues in the Extracellular Linker Region Responsible for the Difference in the Unitary Conductance of SUR/Kir6.0 Complex Channels
- Molecular Aspects of ATP-Sensitive K^+ Channels in the Cardiovascular System
- Potassium Channels of Glial Cells: Distribution and Function