ROS-independent preconditioning in neurons via activation of mitoK(ATP) channels by BMS-191095.
about
Nitrile-containing pharmaceuticals: efficacious roles of the nitrile pharmacophoreMitochondrial reactive oxygen species: a double edged sword in ischemia/reperfusion vs preconditioningAcute treatment with rosuvastatin protects insulin resistant (C57BL/6J ob/ob) mice against transient cerebral ischemia.Rosuvastatin induces delayed preconditioning against L-glutamate excitotoxicity in cultured cortical neuronsDiversity of mitochondria-dependent dilator mechanisms in vascular smooth muscle of cerebral arteries from normal and insulin-resistant rats.Mitochondria: the missing link between preconditioning and neuroprotection.Mitochondrial mechanisms in cerebral vascular control: shared signaling pathways with preconditioning.Pharmacologic preconditioning: translating the promiseImpaired vascular responses of insulin-resistant rats after mild subarachnoid hemorrhageDifferences in oxidative stress status and expression of MKP-1 in dorsal medulla of transgenic rats with altered brain renin-angiotensin system.Depolarization of mitochondria in endothelial cells promotes cerebral artery vasodilation by activation of nitric oxide synthaseEvidence for a mitochondrial angiotensin-(1-7) system in the kidney.Depolarization of mitochondria in neurons promotes activation of nitric oxide synthase and generation of nitric oxide.Rosuvastatin induces delayed preconditioning against oxygen-glucose deprivation in cultured cortical neuronsImpaired mitochondria-dependent vasodilation in cerebral arteries of Zucker obese rats with insulin resistance.Preconditioning and tolerance against cerebral ischaemia: from experimental strategies to clinical use.Neuroprotective effect of adenoviral catalase gene transfer in cortical neuronal cultures.Mitochondrial-mediated suppression of ROS production upon exposure of neurons to lethal stress: mitochondrial targeted preconditioning.Immediate neuronal preconditioning by NS1619.Pharmacology of mitochondrial potassium channels: dark side of the field.Mitochondrial preconditioning: a potential neuroprotective strategy.Involvement of endogenous antioxidant systems in the protective activity of pituitary adenylate cyclase-activating polypeptide against hydrogen peroxide-induced oxidative damages in cultured rat astrocytes.The mechanistic target of rapamycin (mTOR) pathway and S6 Kinase mediate diazoxide preconditioning in primary rat cortical neurons.Altered mitochondrial functioning induced by preoperative fasting may underlie protection against renal ischemia/reperfusion injury.Involvement of volume-activated chloride channels in H2O 2 preconditioning against oxidant-induced injury through modulating cell volume regulation mechanisms and membrane permeability in PC12 cells.Protective effect of the octadecaneuropeptide on hydrogen peroxide-induced oxidative stress and cell death in cultured rat astrocytes.Modulation of mitochondrial respiratory function and ROS production by novel benzopyran analogues.Role of Mitochondria in Cerebral Vascular Function: Energy Production, Cellular Protection, and Regulation of Vascular Tone.
P2860
Q24569706-D9677933-F0DC-47F5-BFD4-BFF7FAB102C2Q26861219-B00159F4-0F61-4ADD-822C-3953579895A8Q33355932-A54F4F90-C62D-4E6F-840F-85D38B32D955Q33665461-6A9F9433-8DCE-41A3-8878-BFF1BD590339Q34062807-533F26D3-F1ED-45B3-BE7D-6DE8424B8AACQ34073859-8B6CDB76-862D-4A3F-B126-711915260A1CQ34111653-532E9F73-99AE-4068-848F-D063CF43A058Q34440453-6341A423-EDDE-4453-AE40-10063EEBB623Q35056921-7F13DAD7-ED7B-449D-B8DA-23AC7501906DQ36312579-33A4A2E4-E647-4F26-828D-053E020333D4Q36772652-D387FF78-D100-4331-ABE9-71A3AFCC9ABFQ36775670-F4094E45-897E-4C3C-BEAA-8283C97E530CQ36902593-EC9CA24D-CF80-4111-897E-2D6EC0B2DD97Q37086446-0E7367AA-16C4-47BB-831F-3408023CC7B7Q37100493-457068C5-60E4-4144-8032-C57C7DD3E174Q37158226-8771BE0D-1EB3-46A3-8DD5-D166AF8B9913Q37200038-557746A6-1829-4CA8-A557-CC14483B929DQ37225972-0F02ED5F-BE68-4904-BFDC-C16FD1A7CA7BQ37347684-652FCE9D-8D27-4CD0-A88C-BC781D370159Q37697271-6B3394AA-ADD1-4D7A-BF19-3C41B07A856FQ37788545-73A534B5-17A6-40D8-A34D-44EAEC835968Q39908827-CE72BE2A-7757-4AF9-8BF9-D439D43229FBQ43243824-4C5BBA52-61C0-4DE2-8778-9BD67F1F42C7Q43645363-1F73D56C-C5BE-411C-BC38-D5FB987BFACBQ43825425-F1329D92-1096-4BE7-9B03-17E10AE6379AQ46594255-4080320C-8CC5-41A4-A745-4CB01AD7D93DQ46676435-4CDA2821-C9A9-4C93-8286-FA6FC2D5CC43Q48653884-E04D0C0E-CCDF-4E89-BB1D-86E2E3F7CBBF
P2860
ROS-independent preconditioning in neurons via activation of mitoK(ATP) channels by BMS-191095.
description
2008 nî lūn-bûn
@nan
2008年の論文
@ja
2008年学术文章
@wuu
2008年学术文章
@zh-cn
2008年学术文章
@zh-hans
2008年学术文章
@zh-my
2008年学术文章
@zh-sg
2008年學術文章
@yue
2008年學術文章
@zh
2008年學術文章
@zh-hant
name
ROS-independent preconditioning in neurons via activation of mitoK
@nl
ROS-independent preconditionin ...... K(ATP) channels by BMS-191095.
@en
type
label
ROS-independent preconditioning in neurons via activation of mitoK
@nl
ROS-independent preconditionin ...... K(ATP) channels by BMS-191095.
@en
prefLabel
ROS-independent preconditioning in neurons via activation of mitoK
@nl
ROS-independent preconditionin ...... K(ATP) channels by BMS-191095.
@en
P2093
P2860
P356
P1476
ROS-independent preconditionin ...... K(ATP) channels by BMS-191095.
@en
P2093
Anna R Busija
David W Busija
Ferenc Bari
Ferenc Domoki
James A Snipes
Tamás Gáspár
P2860
P304
P356
10.1038/SJ.JCBFM.9600611
P577
2008-01-30T00:00:00Z