Harnessing monocyte-derived macrophages to control central nervous system pathologies: no longer 'if' but 'how'.
about
Regenerative Capacity of Macrophages for RemyelinationLinking Activation of Microglia and Peripheral Monocytic Cells to the Pathophysiology of Psychiatric DisordersDouble Roles of Macrophages in Human Neuroimmune Diseases and Their Animal ModelsDevelopment, maintenance and disruption of the blood-brain barrierRational modulation of the innate immune system for neuroprotection in ischemic strokeHow do immune cells support and shape the brain in health, disease, and aging?Function of microglia and macrophages in secondary damage after spinal cord injuryM1 and M2 immune activation in Parkinson's Disease: Foe and ally?Non-mammalian model systems for studying neuro-immune interactions after spinal cord injuryPersistence of Toxoplasma gondii in the central nervous system: a fine-tuned balance between the parasite, the brain and the immune systemAzithromycin drives alternative macrophage activation and improves recovery and tissue sparing in contusion spinal cord injuryOral TNFα Modulation Alters Neutrophil Infiltration, Improves Cognition and Diminishes Tau and Amyloid Pathology in the 3xTgAD Mouse ModelCheckpoints to the Brain: Directing Myeloid Cell Migration to the Central Nervous SystemThe role of the surface on microglia function: implications for central nervous system tissue engineeringPenetrating the Blood-Brain Barrier: Promise of Novel Nanoplatforms and Delivery Vehicles.Intravital correlated microscopy reveals differential macrophage and microglial dynamics during resolution of neuroinflammationMacrophages offer a paradigm switch for CNS delivery of therapeutic proteins.New insights on NOX enzymes in the central nervous system.Safety, tolerability and pharmacodynamics of a novel immunomodulator, MIS416, in patients with chronic progressive multiple sclerosis.Pinocembrin protects hemorrhagic brain primarily by inhibiting toll-like receptor 4 and reducing M1 phenotype microglia.Extracellular matrix regulation of inflammation in the healthy and injured spinal cordProgrammed death 1 deficiency induces the polarization of macrophages/microglia to the M1 phenotype after spinal cord injury in mice.Bone marrow mesenchymal stromal cells drive protective M2 microglia polarization after brain traumaMyeloid Kruppel-like factor 2 deficiency exacerbates neurological dysfunction and neuroinflammation in a murine model of multiple sclerosis.Cannabis use by individuals with multiple sclerosis: effects on specific immune parameters.The impact of microglial activation on blood-brain barrier in brain diseases.An optimized protocol for human M2 macrophages using M-CSF and IL-4/IL-10/TGF-β yields a dominant immunosuppressive phenotype.CD11b+GR1+ myeloid cells secrete NGF and promote trigeminal ganglion neurite growth: implications for corneal nerve regeneration.Preconditioning of microglia by α-synuclein strongly affects the response induced by toll-like receptor (TLR) stimulation.Intravenous infusion of monocytes isolated from 2-week-old mice enhances clearance of Beta-amyloid plaques in an Alzheimer mouse modelIL-33 attenuates the development of experimental autoimmune uveitis.Macrophage Phenotype in the Ocular Surface of Experimental Murine Dry Eye Disease.TLR3 Agonist Poly-IC Induces IL-33 and Promotes Myelin RepairSpatially localized recruitment of anti-inflammatory monocytes by SDF-1α-releasing hydrogels enhances microvascular network remodeling.Expression of Lymphatic Markers in the Adult Rat Spinal Cord.Chronic Toxoplasma gondii infection enhances β-amyloid phagocytosis and clearance by recruited monocytes.Inactivation of the miR-183/96/182 Cluster Decreases the Severity of Pseudomonas aeruginosa-Induced Keratitis.Emodin Bidirectionally Modulates Macrophage Polarization and Epigenetically Regulates Macrophage Memory.Endothelial progenitor cell: a blood cell by many other names may serve similar functionsThe immunomodulator decoy receptor 3 improves locomotor functional recovery after spinal cord injury.
P2860
Q26744475-60FFB1BE-DA9E-4F90-99BF-463C8FC39C56Q26745417-C272A937-1E09-4B24-A28A-525DECD87953Q26749131-F43BF2B5-538B-4430-B102-75FBA544DCBCQ26829668-65E62686-D051-4E45-B52C-88A529130A09Q26851831-8A543F1A-3B5A-4E38-81B7-31C6464EA064Q26995364-78FDC63F-9F11-4E0A-875D-9D38718E8004Q27024453-3E3207EE-ED2E-4D2D-ABD5-E9426636729EQ27024667-F3681193-4CC5-4C20-8EB6-18690A695084Q27026334-DD257D84-C3C4-4DA8-8779-5DFA44747703Q27026477-F8DB24D8-DF37-4F73-A168-231E0BF5142CQ27303481-5B8259A1-F0CA-47D3-AD96-287A1677B3EBQ27319559-DFF354C0-92A6-4E99-BFA3-7930B2360713Q28066906-9149D676-1107-4202-8E99-1A224FAFB127Q28386483-26D6B953-E88C-44DA-8A82-B601A57BA688Q30365829-94CF8D43-3724-4ECC-B38C-FBA5E9C1B872Q30581791-4E387A78-FDC7-4F9E-B46E-CAB90C95983EQ33631069-EFAAE634-E025-469E-A571-CE838790A595Q33632673-30BFD41A-B383-46F1-9C95-FF4FFD0B5B2BQ33692792-3170F33B-7FD4-4C8A-B05B-A2AE2B298201Q33751360-D19220C6-9977-4D25-87BC-201050E2065EQ33906928-53E1A6F6-3B76-43E5-B406-D71C5391041BQ34000753-7751AE9B-20E3-46FF-A41C-605ACF27B201Q34000812-F08315FE-73F8-4717-AE66-A1935B2F2BFEQ34122998-6CD2DF85-FA88-4C47-92CE-6EAE48163440Q34219132-EA48B055-9B59-48A0-8EA0-54854CA4402AQ34442604-C9B1BE97-8C68-414D-B2D8-B0471C6FE6DFQ34805818-6873254E-1579-424C-8F2F-924E58A66553Q34940395-61445568-B375-42F1-8F55-CEE2E34076F9Q35043731-16CDA391-DB56-4B7D-BEBA-52C70BBA150DQ35592052-D32AD033-7FAB-4BEB-8E2F-A80F9B32840AQ35665373-69B9562B-BD5C-4E16-B13A-4DA2C198ADD1Q35911918-966A127D-1D47-4248-BAEB-A70F2455CC29Q35972372-87E84248-F7BB-4D36-BA4F-935E2D181DBEQ36422256-9E954FA5-C764-4B64-8F09-28E5820D8639Q36558913-F4A9EE9B-384F-4F12-9B07-D8755917EB82Q36691483-052D8BB0-DA79-4527-9830-03CC83193B3AQ36761354-839D029C-A22F-4462-B03C-1F30B1CC5C4FQ36941046-E446291D-65AB-4071-93E5-105036145B59Q36991096-EC3ADF78-4B1C-4023-828E-2E494C78C710Q37018241-D78F48D2-E699-4176-84FE-D3B344853069
P2860
Harnessing monocyte-derived macrophages to control central nervous system pathologies: no longer 'if' but 'how'.
description
2012 nî lūn-bûn
@nan
2012年の論文
@ja
2012年学术文章
@wuu
2012年学术文章
@zh-cn
2012年学术文章
@zh-hans
2012年学术文章
@zh-my
2012年学术文章
@zh-sg
2012年學術文章
@yue
2012年學術文章
@zh
2012年學術文章
@zh-hant
name
Harnessing monocyte-derived ma ...... ies: no longer 'if' but 'how'.
@en
type
label
Harnessing monocyte-derived ma ...... ies: no longer 'if' but 'how'.
@en
prefLabel
Harnessing monocyte-derived ma ...... ies: no longer 'if' but 'how'.
@en
P2860
P356
P1476
Harnessing monocyte-derived ma ...... ies: no longer 'if' but 'how'.
@en
P2093
Michal Schwartz
Ravid Shechter
P2860
P304
P356
10.1002/PATH.4106
P577
2012-11-28T00:00:00Z