Overexpression of inducible heat shock protein 70 and its mutants in astrocytes is associated with maintenance of mitochondrial physiology during glucose deprivation stress.
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Precursor cell biology and the development of astrocyte transplantation therapies: lessons from spinal cord injuryHeat shock protein 72 overexpression prevents early postoperative memory decline after orthopedic surgery under general anesthesia in miceHypobaric hypoxia and reoxygenation induce proteomic profile changes in the rat brain cortex.The E1A-associated p400 protein modulates cell fate decisions by the regulation of ROS homeostasis.Inhibiting heat-shock protein 90 reverses sensory hypoalgesia in diabetic mice.Overexpression of mitochondrial uncoupling protein 2 inhibits inflammatory cytokines and activates cell survival factors after cerebral ischemia.Deletion of mitochondrial uncoupling protein-2 increases ischemic brain damage after transient focal ischemia by altering gene expression patterns and enhancing inflammatory cytokinesUpregulation of Hsp72 mediates anoxia/reoxygenation neuroprotection in the freshwater turtle via modulation of ROSAstrocyte targeted overexpression of Hsp72 or SOD2 reduces neuronal vulnerability to forebrain ischemia.Selective dysfunction of hippocampal CA1 astrocytes contributes to delayed neuronal damage after transient forebrain ischemia.Laparotomy in mice induces blood cell expression of inflammatory and stress genes.miR-181 targets multiple Bcl-2 family members and influences apoptosis and mitochondrial function in astrocytes.Modulating molecular chaperones improves sensory fiber recovery and mitochondrial function in diabetic peripheral neuropathyNeuroinflammatory response of the choroid plexus epithelium in fatal diabetic ketoacidosis.Diabetic peripheral neuropathy: should a chaperone accompany our therapeutic approach?HSP72 protects against obesity-induced insulin resistance.microRNAs: innovative targets for cerebral ischemia and stroke.Regulation of apoptotic and inflammatory cell signaling in cerebral ischemia: the complex roles of heat shock protein 70Molecular physiology of preconditioning-induced brain tolerance to ischemia.Protein kinase C-α interaction with iHSP70 in mitochondria promotes recovery of mitochondrial function after injury in renal proximal tubular cellsEpigenetic mechanisms in cerebral ischemia.Astrocyte-enriched miR-29a targets PUMA and reduces neuronal vulnerability to forebrain ischemiaMicroRNAs regulate the chaperone network in cerebral ischemia.Heat shock protein 70 is necessary to improve mitochondrial bioenergetics and reverse diabetic sensory neuropathy following KU-32 therapy.ER-Mitochondria Crosstalk during Cerebral Ischemia: Molecular Chaperones and ER-Mitochondrial Calcium Transfer.Overexpression of mitochondrial Hsp70/Hsp75 protects astrocytes against ischemic injury in vitro.Implications of Epigenetic Mechanisms and their Targets in Cerebral Ischemia Models.Paracrine factors of human mesenchymal stem cells increase wound closure and reduce reactive oxygen species production in a traumatic brain injury in vitro model.miR-181 regulates GRP78 and influences outcome from cerebral ischemia in vitro and in vivo.Evidence of cellular stress and caspase-3 resulting from a combined two-frequency signal in the cerebrum and cerebellum of sprague-dawley rats.Overexpressing GRP78 influences Ca2+ handling and function of mitochondria in astrocytes after ischemia-like stress.Protection of flunarizine on cerebral mitochondria injury induced by cortical spreading depression under hypoxic conditions.Comparison of the effects of human dental pulp stem cells and human bone marrow-derived mesenchymal stem cells on ischemic human astrocytes in vitro.miR-29a differentially regulates cell survival in astrocytes from cornu ammonis 1 and dentate gyrus by targeting VDAC1.The 70-kDa heat shock protein (Hsp70) as a therapeutic target for stroke.
P2860
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P2860
Overexpression of inducible heat shock protein 70 and its mutants in astrocytes is associated with maintenance of mitochondrial physiology during glucose deprivation stress.
description
2006 nî lūn-bûn
@nan
2006 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
2006 թվականի հունվարին հրատարակված գիտական հոդված
@hy
2006年の論文
@ja
2006年論文
@yue
2006年論文
@zh-hant
2006年論文
@zh-hk
2006年論文
@zh-mo
2006年論文
@zh-tw
2006年论文
@wuu
name
Overexpression of inducible he ...... ng glucose deprivation stress.
@ast
Overexpression of inducible he ...... ng glucose deprivation stress.
@en
Overexpression of inducible he ...... ng glucose deprivation stress.
@nl
type
label
Overexpression of inducible he ...... ng glucose deprivation stress.
@ast
Overexpression of inducible he ...... ng glucose deprivation stress.
@en
Overexpression of inducible he ...... ng glucose deprivation stress.
@nl
prefLabel
Overexpression of inducible he ...... ng glucose deprivation stress.
@ast
Overexpression of inducible he ...... ng glucose deprivation stress.
@en
Overexpression of inducible he ...... ng glucose deprivation stress.
@nl
P2093
P2860
P356
P1476
Overexpression of inducible he ...... ing glucose deprivation stress
@en
P2093
Yi-Bing Ouyang
Yun-Juan Sun
P2860
P2888
P304
P356
10.1379/CSC-182R.1
P50
P577
2006-01-01T00:00:00Z
P5875
P6179
1067173901