about
The dynamics of the mitochondrial organelle as a potential therapeutic targetRegulation of Neuroinflammation through Programed Death-1/Programed Death Ligand Signaling in Neurological DisordersTransmission of α-synucleinopathy from olfactory structures deep into the temporal lobe.Dietary supplementation with omega-3 polyunsaturated fatty acids robustly promotes neurovascular restorative dynamics and improves neurological functions after stroke.The molecular chaperone Hsc70 interacts with the vesicular monoamine transporter-2Physical and functional interaction between the dopamine transporter and the synaptic vesicle protein synaptogyrin-3Ethyl pyruvate protects against blood-brain barrier damage and improves long-term neurological outcomes in a rat model of traumatic brain injuryHeat shock proteins in neurodegenerative disorders and agingThe suprachiasmatic nucleus projects to posterior hypothalamic arousal systems.Effect of sublethal 6-hydroxydopamine on the response to subsequent oxidative stress in dopaminergic cells: evidence for preconditioning.Teaching Pharmacology Graduate Students how to Write an NIH Grant Application.Molecular dialogs between the ischemic brain and the peripheral immune system: dualistic roles in injury and repairNeurorestorative effect of urinary bladder matrix-mediated neural stem cell transplantation following traumatic brain injury in rats.Drug-induced hypothermia in stroke models: does it always protect?Viability assays for cells in culture.Adaptation to chronic MG132 reduces oxidative toxicity by a CuZnSOD-dependent mechanismNeurobiology of microglial action in CNS injuries: receptor-mediated signaling mechanisms and functional rolesOmega-3 polyunsaturated fatty acids enhance cerebral angiogenesis and provide long-term protection after stroke.Scriptaid, a novel histone deacetylase inhibitor, protects against traumatic brain injury via modulation of PTEN and AKT pathway : scriptaid protects against TBI via AKT.Neocortex and allocortex respond differentially to cellular stress in vitro and aging in vivoNeuronal NAMPT is released after cerebral ischemia and protects against white matter injuryHDAC inhibition prevents white matter injury by modulating microglia/macrophage polarization through the GSK3β/PTEN/Akt axis.Galectin-1-secreting neural stem cells elicit long-term neuroprotection against ischemic brain injuryMicroglial and macrophage polarization—new prospects for brain repairOrganization of suprachiasmatic nucleus projections in Syrian hamsters (Mesocricetus auratus): an anterograde and retrograde analysis.Innervation of ventricular and periventricular brain compartments.White matter injury and microglia/macrophage polarization are strongly linked with age-related long-term deficits in neurological function after stroke.Rapid and sustained antidepressant properties of an NMDA antagonist/monoamine reuptake inhibitor identified via transporter-based virtual screening.Rosiglitazone Promotes White Matter Integrity and Long-Term Functional Recovery After Focal Cerebral Ischemia.Interleukin-4 Is Essential for Microglia/Macrophage M2 Polarization and Long-Term Recovery After Cerebral Ischemia.Rapid endothelial cytoskeletal reorganization enables early blood-brain barrier disruption and long-term ischaemic reperfusion brain injuryTranslational Stroke Research on Blood-Brain Barrier Damage: Challenges, Perspectives, and Goals.Mitochondrial biogenesis contributes to ischemic neuroprotection afforded by LPS pre-conditioning.Omega-3 polyunsaturated fatty acids mitigate blood-brain barrier disruption after hypoxic-ischemic brain injury.APE1/Ref-1 facilitates recovery of gray and white matter and neurological function after mild stroke injury.Omega-3 polyunsaturated fatty acid supplementation improves neurologic recovery and attenuates white matter injury after experimental traumatic brain injury.Physical activity is linked to ceruloplasmin in the striatum of intact but not MPTP-treated primates.Physical activity-associated gene expression signature in nonhuman primate motor cortex.Adoptive regulatory T-cell therapy preserves systemic immune homeostasis after cerebral ischemia.Omega-3 fatty acids protect the brain against ischemic injury by activating Nrf2 and upregulating heme oxygenase 1.
P50
Q26853454-CB002E8A-30BC-4919-97F8-81674A5016D5Q26997105-A342FF60-FE88-45F5-91D4-8C63039B57A8Q27301056-13E82AA8-F90F-48DB-9275-B8EA2E754CD0Q27311387-F2164228-AC70-4968-A5DD-5C608B321D7CQ28565552-182DDB70-6423-4CC9-98EF-66295D4AD008Q28594026-D8A37BF2-96D0-4368-AF49-0E87B67856CDQ28651196-6E020BBB-4B15-4074-AA4A-4E619F285523Q30414556-95D07E2C-A834-4B43-A149-EC0735BDB919Q32037428-A2F85E0C-0CA2-4AA2-83EB-EE8BD27F7931Q33256562-673DFD51-6C73-42F8-A7DD-51852979B16CQ33573657-79BF3043-2F81-4E93-B648-5E9241321493Q33583258-FCFC7CBF-22E6-44F8-ADDE-2593253B1463Q33724891-5415B250-C55D-42DD-8C6B-BA421104492BQ33844760-C7741D7B-6DE0-41B5-A24B-E5364BCBB772Q33872458-4129024B-CC93-4331-8B23-B88285B9092AQ33984045-297ACF49-D05B-4EF8-ACC8-74CF56298C59Q34002086-57A4D407-7756-438A-AE48-7228283944AEQ34002094-8BB2F346-1941-49FF-B32E-692FFB5E342FQ34310319-FC5C140A-2BFA-4FA4-9308-9D0B225E3D64Q34639246-68C0932B-3679-48EF-831D-E0499363485CQ34727045-6FA3C87D-9A7B-42D1-AF8A-2E26EED2537BQ35157022-BE346142-44F1-4C9F-913C-27EA601CB586Q35353114-7339C5B1-D1B0-40BA-AB77-80ED4BF0757BQ35394922-CBCB0618-1914-41FA-8560-A047D6638738Q35744675-AC4CE3FE-73AB-4B51-8CA4-D9936A4A50BAQ36019882-1F1E4B6B-BC41-42A8-9AAE-237101F368A4Q36113123-26EE4001-D8F4-4901-9242-A7059CA7B132Q36115412-E1744889-6B99-46CE-BE4D-959654CC97C8Q36191138-CCFD93F4-FEDD-413F-AE51-CC585C054B19Q36510329-6A180B1C-8C07-42BF-BBB9-8DAAE424EF6EQ36534816-728CBE1C-D675-451B-98A3-A4C2CD086D6DQ36731242-0C7E97C2-B58B-4157-ABA8-7694AE2AAE12Q36758353-F9F5536E-305E-4900-9587-824B8AB51658Q36880182-B6949A74-5ACE-4D13-A2F2-A646F05F3C6DQ37040741-ACC664EC-C6BD-4FE7-A6EF-5FA618407A96Q37150323-8154685E-4BEB-4693-B23B-4983D10AF13DQ37189967-9004479F-3CBA-4DD0-A843-8E993C45BE7CQ37414086-44ACF8FC-3FC3-4783-8010-B512BE755851Q37492747-109663E4-F0A7-4B70-B0AC-39CB8473DA92Q37526130-A20A7EC0-D745-4559-B69E-BE82D688993B
P50
description
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Rehana K. Leak
@ast
Rehana K. Leak
@en
Rehana K. Leak
@es
Rehana K. Leak
@nl
Rehana K. Leak
@sl
type
label
Rehana K. Leak
@ast
Rehana K. Leak
@en
Rehana K. Leak
@es
Rehana K. Leak
@nl
Rehana K. Leak
@sl
prefLabel
Rehana K. Leak
@ast
Rehana K. Leak
@en
Rehana K. Leak
@es
Rehana K. Leak
@nl
Rehana K. Leak
@sl
P106
P1153
6603119101
P31
P496
0000-0003-2817-7417