Role of NMDA receptor-dependent activation of SREBP1 in excitotoxic and ischemic neuronal injuries.
about
Web-based genome-wide association study identifies two novel loci and a substantial genetic component for Parkinson's diseaseThe neurology of mTORInhibiting cholesterol degradation induces neuronal sclerosis and epileptic activity in mouse hippocampus.Targeting the EGFR/PCNA signaling suppresses tumor growth of triple-negative breast cancer cells with cell-penetrating PCNA peptidesAMPK phosphorylates and inhibits SREBP activity to attenuate hepatic steatosis and atherosclerosis in diet-induced insulin-resistant miceModulation of synaptic plasticity by stress hormone associates with plastic alteration of synaptic NMDA receptor in the adult hippocampus.Neuronal necrosis is regulated by a conserved chromatin-modifying cascade.Maturation and activity of sterol regulatory element binding protein 1 is inhibited by acyl-CoA binding domain containing 3.NMDA receptor subunits in the adult rat hippocampus undergo similar changes after 5 minutes in an open field and after LTP induction.Migraine prophylaxis, ischemic depolarizations, and stroke outcomes in mice.Long-term potentiation promotes proliferation/survival and neuronal differentiation of neural stem/progenitor cells.Novel central nervous system drug delivery systems.Disruption of astrocyte-neuron cholesterol cross talk affects neuronal function in Huntington's disease.Pre-B-cell colony-enhancing factor exerts a neuronal protection through its enzymatic activity and the reduction of mitochondrial dysfunction in in vitro ischemic models.Anesthesia-Induced Hypothermia Attenuates Early-Phase Blood-Brain Barrier Disruption but Not Infarct Volume following Cerebral Ischemia.Expanding roles for SREBP in metabolismCyr61, a matricellular protein, is needed for dendritic arborization of hippocampal neurons.A novel JNK2/SREBP-1c pathway involved in insulin-induced fatty acid synthesis in human adipocytes.Tissue Plasminogen Activator Neurotoxicity is Neutralized by Recombinant ADAMTS 13NR2B-dependent cyclophilin D translocation suppresses the recovery of synaptic transmission after oxygen-glucose deprivation.Stroke patients develop antibodies that react with components of N-methyl-D-aspartate receptor subunit 1 in proportion to lesion sizeRapid and reversible knockdown of endogenous proteins by peptide-directed lysosomal degradation.GluN2A versus GluN2B: twins, but quite different.Spreading depolarization may link migraine and stroke.Interactome network analysis identifies multiple caspase-6 interactors involved in the pathogenesis of HD.Retinol binding protein 4 stimulates hepatic sterol regulatory element-binding protein 1 and increases lipogenesis through the peroxisome proliferator-activated receptor-γ coactivator 1β-dependent pathway.The role of Ca2+ signaling in Parkinson's disease.The Mechanisms of Action of Curcumin in Alzheimer's Disease.Slice orientation and muscarinic acetylcholine receptor activation determine the involvement of N-methyl D-aspartate receptor subunit GluN2B in hippocampal area CA1 long-term depression.HCBP6 Modulates Triglyceride Homeostasis in Hepatocytes Via the SREBP1c/FASN Pathway.Modes of Neuronal Calcium Entry and Homeostasis following Cerebral Ischemia.Activation of caspase-6 and cleavage of caspase-6 substrates is an early event in NMDA receptor-mediated excitotoxicity.Apolipoprotein D Overexpression Protects Against Kainate-Induced Neurotoxicity in Mice.Neuronal Activity-Induced Sterol Regulatory Element Binding Protein-1 (SREBP1) is Disrupted in Dysbindin-Null Mice-Potential Link to Cognitive Impairment in Schizophrenia.Discovery and development of NA-1 for the treatment of acute ischemic stroke.Targeting NMDA receptors in stroke: new hope in neuroprotection.NMDA Receptor Subunits Change after Synaptic Plasticity Induction and Learning and Memory Acquisition.Transcriptomic analysis of neuregulin-1 regulated genes following ischemic stroke by computational identification of promoter binding sites: A role for the ETS-1 transcription factor.
P2860
Q21144949-CB8F4072-21F5-4B33-82FE-88FFCBB0882AQ26824286-C0ABF08C-C531-4B4C-986C-007F1494CADDQ27313143-94EFE8FC-CBE8-4C77-AFC7-3BFAC38DFBA2Q28486075-2EA290D4-576E-4CB2-A371-EE4A79B947ACQ28591122-73E825B9-7319-4A67-B2D6-2F8200A15F20Q34070607-DEC6348C-B6BF-4199-9B7C-43BAEE10FD17Q34281303-CB2C3B60-52C8-4556-81FA-3AF1F0D89E59Q34482862-A536F787-CE55-46B8-8BE9-9E06075E9AC8Q34577100-CC4FB43D-044D-4B2F-B433-B97977D0B919Q34771803-84DFC867-FB84-4D24-B93A-496842BE06FDQ35022986-79C7A68F-A001-4FB5-A533-64DD50BCB04FQ35064473-1E747AB8-C75C-4B5D-BC26-6FF8B0567507Q35167605-56161D21-8059-49A5-9E40-8FCD216AD70AQ35626960-F2F05163-F40A-48FA-9A54-9068CAEE6736Q36258844-9B3E5DD3-2EA5-4CDB-B31C-B82690A76C77Q36303731-931D882B-16B5-414F-AC54-7FB909C7F579Q36708627-93E81ACA-C576-40FB-BA3F-BC9D8CAA6F54Q36822543-383E883A-1386-4299-84D1-1825988B8B26Q36903087-00B305F7-0042-4398-8B80-AD566C99BD77Q36915878-B5CECAAC-C375-43A9-9BD3-B425FB343DBEQ37301326-4160B430-F194-4CF3-971B-CFE975E75882Q37607614-F30950C5-2AAB-45C9-BF3B-E9F8F6EA2E21Q38100646-141A0535-771D-438F-AD47-F833ADA0B844Q38218958-F5BBBB03-D2CB-4237-841E-AF73BEC04061Q38791517-91F4F855-877C-4289-9354-86BA0E35D3D2Q39214040-822ADDFA-3548-463C-B420-A5460AD25968Q39281423-26BEFB71-E9BA-4403-89A6-BB18390B6261Q39319459-7D05D281-0CF2-40B0-ACD1-07913DB44838Q39452920-B102242B-B0A7-405C-AE87-02A25CC4EF6EQ42149934-5DBA6F52-556A-4E9A-99C4-CA0E9AF67C11Q42389555-BC1A5721-E84B-48EF-9618-749FCDD3C8E1Q45305792-97ED2B6D-958B-4AE2-AB99-EBD3B3523238Q48691393-FD4853B1-8EF0-490B-850A-E6700F6F09EAQ48909259-56D06EE4-92A4-418B-ABB0-B9B0030D130FQ52346629-3D22DB03-B142-47CF-BD11-3A67B090BE96Q52657620-D281040F-2EDB-45EE-9650-31E9F4D85E5FQ54945520-E1125D39-26D5-4EBE-B7F9-21B6E4F65D7FQ55497415-539638A8-3D66-4953-BD97-F116BCA8A883
P2860
Role of NMDA receptor-dependent activation of SREBP1 in excitotoxic and ischemic neuronal injuries.
description
2009 nî lūn-bûn
@nan
2009年の論文
@ja
2009年学术文章
@wuu
2009年学术文章
@zh-cn
2009年学术文章
@zh-hans
2009年学术文章
@zh-my
2009年学术文章
@zh-sg
2009年學術文章
@yue
2009年學術文章
@zh
2009年學術文章
@zh-hant
name
Role of NMDA receptor-dependen ...... nd ischemic neuronal injuries.
@en
Role of NMDA receptor-dependen ...... nd ischemic neuronal injuries.
@nl
type
label
Role of NMDA receptor-dependen ...... nd ischemic neuronal injuries.
@en
Role of NMDA receptor-dependen ...... nd ischemic neuronal injuries.
@nl
prefLabel
Role of NMDA receptor-dependen ...... nd ischemic neuronal injuries.
@en
Role of NMDA receptor-dependen ...... nd ischemic neuronal injuries.
@nl
P2093
P50
P356
P1433
P1476
Role of NMDA receptor-dependen ...... and ischemic neuronal injuries
@en
P2093
Changiz Taghibiglou
Joon-Hyuk Imm
Julia Z Z Wu
Luba Kojic
Max S Cynader
Shiv Prasad
Taesup Cho
P2860
P2888
P304
P356
10.1038/NM.2064
P407
P577
2009-11-22T00:00:00Z