Disruption of ionic and cell volume homeostasis in cerebral ischemia: The perfect storm
about
Distinct expression/function of potassium and chloride channels contributes to the diverse volume regulation in cortical astrocytes of GFAP/EGFP miceFixed negative charge and the Donnan effect: a description of the driving forces associated with brain tissue swelling and oedemaTwo distinct modes of hypoosmotic medium-induced release of excitatory amino acids and taurine in the rat brain in vivo.Imidazol-1-ylethylindazole voltage-gated sodium channel ligands are neuroprotective during optic neuritis in a mouse model of multiple sclerosis.Ionic storm in hypoxic/ischemic stress: can opioid receptors subside it?Hypo-osmotic swelling modifies glutamate-glutamine cycle in the cerebral cortex and in astrocyte cultures.Enhanced GLT-1 mediated glutamate uptake and migration of primary astrocytes directed by fibronectin-coated electrospun poly-L-lactic acid fibers.Volume-regulated anion channel--a frenemy within the brain.A novel insight into neuroprotection against hypoxic/ischemic stress.The neuroprotective properties of the superoxide dismutase mimetic tempol correlate with its ability to reduce pathological glutamate release in a rodent model of stroke.NKCC1 and NKCC2: The pathogenetic role of cation-chloride cotransporters in hypertensionDCPIB, the proposed selective blocker of volume-regulated anion channels, inhibits several glutamate transport pathways in glial cells.Volume-dependent osmolyte efflux from neural tissues: regulation by G-protein-coupled receptors.Noncanonical cell death programs in the nematode Caenorhabditis elegans.Delta opioid receptor and its peptide: a receptor-ligand neuroprotectionTwo conventional protein kinase C isoforms, alpha and beta I, are involved in the ATP-induced activation of volume-regulated anion channel and glutamate release in cultured astrocytesThe Hv1 proton channel responds to mechanical stimuliSelective vulnerability of synaptic signaling and metabolism to nitrosative stressThe identification of a volume-regulated anion channel: an amazing Odyssey.VRAC: molecular identification as LRRC8 heteromers with differential functions.Biophysics and Physiology of the Volume-Regulated Anion Channel (VRAC)/Volume-Sensitive Outwardly Rectifying Anion Channel (VSOR).Molecular basis for certain neuroprotective effects of thyroid hormone.NLRP3 inflammasome: a promising target in ischemic stroke.Phytochemicals in Ischemic Stroke.ATP release during cell swelling activates a Ca2+-dependent Cl- current by autocrine mechanism in mouse hippocampal microglia.Delta Opioid Receptor and Peptide: A Dynamic Therapy for Stroke and Other Neurological Disorders.Ethanol Iris tenuifolia extract reduces brain damage in a mouse model of cerebral ischaemia.Thrombin-facilitated efflux of D-[3H]-aspartate from cultured astrocytes and neurons under hyponatremia and chemical ischemia.The role of NLRP3 inflammasome in stroke and central poststroke pain
P2860
Q28732871-7E916161-7B0B-4584-AB24-0F510516957EQ28972580-BB365BB9-170A-4983-90A5-B921B4F6B0D7Q33380149-B6A008A1-C20A-4D9A-9AD1-60C68CC33766Q33568213-980658F6-EA78-4A64-BCB9-0413992E437AQ33746364-253CE596-F30C-470E-928F-0E996FDA6758Q33881454-93FB0125-1297-4E9D-8BDA-E46DB296E291Q34280092-C6911A13-1657-408C-B6AF-CBCC3DFFF57AQ34503545-1F55791D-109E-459E-A8CE-42ACF7103402Q34554858-6288EE27-434F-44A9-9418-AF0FB2032062Q34647344-FD861CF4-5330-4B6F-9E2B-3FFC5500E399Q35771348-B201711E-66AA-4CEA-9E24-33DB4B14A134Q36497815-7226B2E8-EE3C-4E90-B1BD-C0839D1007FDQ36953260-00564341-4054-4201-8353-57EF6527856DQ37147746-9FED92A1-F9B7-4D3B-BC6E-A876CA0282A6Q37225038-D8B8C914-E4FE-45DC-B9A4-B1C35FBBC7CDQ37285042-408D15CB-FAA7-48A2-A5B0-29C80FF9624EQ37385476-8A251151-0E6D-4E63-B73E-1093A40876CCQ37984548-95184E1E-F329-4697-B88D-9BB5ABCFF75CQ38309743-DD236184-318F-49C8-902C-E26ED606837EQ38560937-9FE8461F-4390-4E4E-8FA4-DC547F002EC1Q38688943-586984E5-6237-43F9-AC36-83258FE7E5C7Q38700133-F8F8C587-4069-4D2F-80D1-E0067272A359Q38826329-E418A5DD-E127-40A5-9635-2441B45C82B3Q38837831-0114292C-9AEA-487C-96AE-E5C246CF99D3Q41054707-AEA0BFB5-4955-465E-BA78-460C4446C705Q44344083-B6A29344-4DF1-477A-B24D-88D37212D089Q47954024-A44952DA-0017-4242-BBBA-139AC30F00AFQ53059145-675FA81E-F41D-49EF-A5A1-B297A01C2CC3Q58768826-31920E0C-3531-4753-8D17-2D0069FC1548
P2860
Disruption of ionic and cell volume homeostasis in cerebral ischemia: The perfect storm
description
2007 nî lūn-bûn
@nan
2007年の論文
@ja
2007年学术文章
@wuu
2007年学术文章
@zh-cn
2007年学术文章
@zh-hans
2007年学术文章
@zh-my
2007年学术文章
@zh-sg
2007年學術文章
@yue
2007年學術文章
@zh
2007年學術文章
@zh-hant
name
Disruption of ionic and cell volume homeostasis in cerebral ischemia: The perfect storm
@ast
Disruption of ionic and cell volume homeostasis in cerebral ischemia: The perfect storm
@en
type
label
Disruption of ionic and cell volume homeostasis in cerebral ischemia: The perfect storm
@ast
Disruption of ionic and cell volume homeostasis in cerebral ischemia: The perfect storm
@en
prefLabel
Disruption of ionic and cell volume homeostasis in cerebral ischemia: The perfect storm
@ast
Disruption of ionic and cell volume homeostasis in cerebral ischemia: The perfect storm
@en
P2860
P1433
P1476
Disruption of ionic and cell volume homeostasis in cerebral ischemia: The perfect storm
@en
P2093
Alexander A Mongin
P2860
P304
P356
10.1016/J.PATHOPHYS.2007.09.009
P577
2007-10-25T00:00:00Z