IFNγ-stimulated dendritic cell exosomes as a potential therapeutic for remyelination.
about
miRNAs As Emerging Regulators of Oligodendrocyte Development and DifferentiationExtracellular Vesicles in Physiology, Pathology, and Therapy of the Immune and Central Nervous System, with Focus on Extracellular Vesicles Derived from Mesenchymal Stem Cells as Therapeutic ToolsExtracellular vesicles round off communication in the nervous systemFocus on Extracellular Vesicles: Physiological Role and Signalling Properties of Extracellular Membrane VesiclesNeuroinflammation and Depression: Microglia Activation, Extracellular Microvesicles and microRNA DysregulationAntibody-Based Assays for Phenotyping of Extracellular VesiclesExtracellular Vesicles in Multiple Sclerosis: What are They Telling Us?New Insights into the Role of Oxidative Stress Mechanisms in the Pathophysiology and Treatment of Multiple SclerosisNIH workshop report on the trans-agency blood-brain interface workshop 2016: exploring key challenges and opportunities associated with the blood, brain and their interface.A Refined Bead-Free Method to Identify Astrocytic Exosomes in Primary Glial Cultures and Blood PlasmaSpreading depression requires microglia and is decreased by their M2a polarization from environmental enrichment.What are exosomes and how can they be used in multiple sclerosis therapy?Analysis of the RNA content of the exosomes derived from blood serum and urine and its potential as biomarkers.Real-time imaging of electrical signals with an infrared FDA-approved dye.Small and Long Regulatory RNAs in the Immune System and Immune DiseasesEmerging roles for extracellular vesicles in tissue engineering and regenerative medicine.Spreading depression transiently disrupts myelin via interferon-gamma signaling.Potential functional applications of extracellular vesicles: a report by the NIH Common Fund Extracellular RNA Communication ConsortiumExtracellular Vesicles from Vascular Endothelial Cells Promote Survival, Proliferation and Motility of Oligodendrocyte Precursor Cells.Extracellular vesicles and their synthetic analogues in aging and age-associated brain diseases.Demyelination as a rational therapeutic target for ischemic or traumatic brain injury.Phasic Treatment with Interferon Gamma Stimulates Release of Exosomes that Protect Against Spreading Depression.IFNGR2 genetic polymorphism associated with sex-specific paranoid schizophrenia risk.Exosomes as a Nanodelivery System: a Key to the Future of Neuromedicine?Oligodendrocyte death results in immune-mediated CNS demyelination.Environmental Enrichment Stimulates Immune Cell Secretion of Exosomes that Promote CNS Myelination and May Regulate InflammationALS Pathogenesis and Therapeutic Approaches: The Role of Mesenchymal Stem Cells and Extracellular VesiclesThe potential of exosomes in diagnosis and treatment of inborn errors of metabolism.Diagnostic and therapeutic potentials of exosomes in CNS diseases.The role of exosomes in peripheral nerve regenerationAcellular approaches for regenerative medicine: on the verge of clinical trials with extracellular membrane vesicles?Extracellular Vesicles: Goodies for the Brain?Extracellular vesicles and intercellular communication within the nervous system.A new approach in stem cell research-Exosomes: Their mechanism of action via cellular pathways.Potential Roles of Exosomal MicroRNAs as Diagnostic Biomarkers and Therapeutic Application in Alzheimer's Disease.Extracellular Vesicles in Brain Tumors and Neurodegenerative Diseases.Cerebrospinal fluid extracellular vesicle enrichment for protein biomarker discovery in neurological disease; multiple sclerosis.Extracellular vesicles as modulators of cell-to-cell communication in the healthy and diseased brain.Recent advances in exosome-based nanovehicles as RNA interference therapeutic carriers.Exosomes: a novel therapeutic target for Alzheimer's disease?
P2860
Q26744461-6D138FE2-88BE-4714-97F8-2B1509BF1DDDQ26747560-DC0DFE3E-7276-490B-BAA6-6724735FABECQ26764878-8B6948FA-16BA-4E4E-BACA-615B90485B0AQ26767270-2D4E3A33-5BD5-4DC0-8053-08AE9F06A8D0Q26770754-FD8A307B-1F79-4D20-8163-A4C77F4A5D60Q26771759-9C61646A-18BE-4560-B420-7E8D64FC1B3EQ27022494-75E04346-1051-4B6E-ABBE-C7336DAF566EQ28072844-C2FD1858-09BC-4874-B8D1-4CD7E1AC2C74Q30352890-6A0A55DA-8807-48FA-A0BA-7D3002C285C2Q33799866-FCC6C0D0-03C9-4889-8797-32A32E15023EQ33844805-18342F0E-4614-4AE0-A4AE-2D9FF4F81C21Q33875923-A653C337-608A-4E62-9908-156965A3D2FAQ34079386-876A2957-BE0B-4ED0-8A68-6408DD9E5138Q34203755-569BCC4C-5199-47C6-8916-85211323E206Q34368789-FF488A8A-95B6-4A4B-8A26-9681275EEEB5Q35064686-8B5E95AC-096C-4837-8A7C-8F0B5D940D9DQ35071478-3677F8FF-86E7-4DF1-804E-B3353659B0F8Q36006436-E5827209-69AB-4250-B001-3C41FD0E858AQ36073716-80F78B77-E29F-4253-90A4-C64F35EB7CFAQ36081720-ACC08EA3-57D2-475D-95A7-3EBE6A5F902AQ36090107-F064ACA2-309A-4B84-91BD-A90C80DFB32DQ36108513-C4340EC6-2E3B-4322-B2B4-E59BDB094DFDQ36114055-3AA70D9E-1F67-40FA-9F85-B2F04E253DFDQ36577074-D2173279-77F9-44FB-AC61-C21403150F86Q36816559-B5911812-9271-469C-9942-5372FCE7574EQ36880153-70D569BD-1AEC-4082-8313-803C7E660218Q37712624-B29F9588-0F80-40C4-B0CB-B26655984299Q38186575-9A1F33B6-30C0-4DCF-BB8E-D7EFDD95BEA5Q38259010-AFB8ED61-FE76-4F79-8B6E-3F51F12C37DEQ38537557-EA65CC70-1D7F-42D6-8B88-DFFCBF5865D6Q38657237-2989443F-3220-4D77-83CA-9AE7FA3092EFQ38666625-F78D1D39-9B48-449A-B72E-FB783ABE9495Q38795618-6CE466A1-F311-44D3-A4D2-12A5F9A24383Q38964517-303935AF-2DFA-4F80-9D73-DF0EEBF99978Q41099377-FCC6A31B-38A9-4D95-8A1A-64E6F6F1E914Q41605967-AF8CF423-BE20-4717-8CAE-A75B2CD53DDDQ41675007-61455F6C-0479-4269-9D10-1E27CDF179D8Q41868294-116D2E9B-AD31-4FDC-8623-316F43C9D932Q45872562-3FF9BE7E-F59C-432F-8B93-086160C9160FQ55416682-6D0F1FA2-AACC-4FE0-886C-FFA29443E6F0
P2860
IFNγ-stimulated dendritic cell exosomes as a potential therapeutic for remyelination.
description
2013 nî lūn-bûn
@nan
2013年の論文
@ja
2013年学术文章
@wuu
2013年学术文章
@zh-cn
2013年学术文章
@zh-hans
2013年学术文章
@zh-my
2013年学术文章
@zh-sg
2013年學術文章
@yue
2013年學術文章
@zh
2013年學術文章
@zh-hant
name
IFNγ-stimulated dendritic cell exosomes as a potential therapeutic for remyelination.
@en
IFNγ-stimulated dendritic cell exosomes as a potential therapeutic for remyelination.
@nl
type
label
IFNγ-stimulated dendritic cell exosomes as a potential therapeutic for remyelination.
@en
IFNγ-stimulated dendritic cell exosomes as a potential therapeutic for remyelination.
@nl
prefLabel
IFNγ-stimulated dendritic cell exosomes as a potential therapeutic for remyelination.
@en
IFNγ-stimulated dendritic cell exosomes as a potential therapeutic for remyelination.
@nl
P2860
P1476
IFNγ-stimulated dendritic cell exosomes as a potential therapeutic for remyelination.
@en
P2093
Aya D Pusic
Kae M Pusic
P2860
P356
10.1016/J.JNEUROIM.2013.10.014
P577
2013-11-09T00:00:00Z