In vivo mature immunological synapses forming SMACs mediate clearance of virally infected astrocytes from the brain - Wikidata - wikimedia - TriplyDB

In vivo mature immunological synapses forming SMACs mediate clearance of virally infected astrocytes from the brain

In vivo mature immunological synapses forming SMACs mediate clearance of virally infected astrocytes from the brain

http://www.wikidata.org/entity/Q36019340

about

A conserved CXXC motif in CD3epsilon is critical for T cell development and TCR signaling Astrocytes: biology and pathology Astrocytes in multiple sclerosis: a product of their environment In vivo polarization of IFN-gamma at Kupfer and non-Kupfer immunological synapses during the clearance of virally infected brain cells.Subcellular dynamics of T cell immunological synapses and kinapses in lymph nodes.Cytotoxic immunological synapses do not restrict the action of interferon-γ to antigenic target cells.T cells' immunological synapses induce polarization of brain astrocytes in vivo and in vitro: a novel astrocyte response mechanism to cellular injury.The influence of innate and pre-existing immunity on adenovirus therapy Kupfer-type immunological synapse characteristics do not predict anti-brain tumor cytolytic T-cell function in vivo.Single vs. combination immunotherapeutic strategies for glioma.Gene transfer into rat brain using adenoviral vectors.The synapse and cytolytic machinery of cytotoxic T cells.Study of the efficacy, biodistribution, and safety profile of therapeutic gutless adenovirus vectors as a prelude to a phase I clinical trial for glioblastoma.Exogenous fms-like tyrosine kinase 3 ligand overrides brain immune privilege and facilitates recognition of a neo-antigen without causing autoimmune neuropathology Rapid formation of extended processes and engagement of Theiler's virus-infected neurons by CNS-infiltrating CD8 T cells.Cytotoxic immunological synapses.CNS-infiltrating CD4+ T lymphocytes contribute to murine spinal nerve transection-induced neuropathic pain.The role of antigen presenting cells in multiple sclerosis.Real-time analysis of T cell receptors in naive cells in vitro and in vivo reveals flexibility in synapse and signaling dynamics.IFN-γ signaling, with the synergistic contribution of TNF-α, mediates cell specific microglial and astroglial activation in experimental models of Parkinson's disease Cerebrospinal fluid (CSF) CD8+ T-cells that express interferon-gamma contribute to HIV associated neurocognitive disorders (HAND)Identification and visualization of CD8+ T cell mediated IFN-γ signaling in target cells during an antiviral immune response in the brain.Optimization of adenoviral vector-mediated transgene expression in the canine brain in vivo, and in canine glioma cells in vitro.Immune-mediated loss of transgene expression from virally transduced brain cells is irreversible, mediated by IFNγ, perforin, and TNFα, and due to the elimination of transduced cells Interaction of astrocytes and T cells in physiological and pathological conditions Immunological thresholds in neurological gene therapy: highly efficient elimination of transduced cells might be related to the specific formation of immunological synapses between T cells and virus-infected brain cells.Studying the T Cell-Astrocyte Immune Synapse.One-year expression from high-capacity adenoviral vectors in the brains of animals with pre-existing anti-adenoviral immunity: clinical implications.Immunology of neurological gene therapy: how T cells modulate viral vector-mediated therapeutic transgene expression through immunological synapses Immune responses to adenovirus and adeno-associated vectors used for gene therapy of brain diseases: the role of immunological synapses in understanding the cell biology of neuroimmune interactions CD20, CD3, and CD40 ligand microclusters segregate three-dimensionally in vivo at B-cell-T-cell immunological synapses after viral immunity in primate brain Respiratory syncytial virus impairs T cell activation by preventing synapse assembly with dendritic cells Neuroimmunology of central nervous system viral infections: the cells, molecules and mechanisms involved.Gene delivery to the nervous system Two-photon imaging of effector T-cell behavior: lessons from a tumor model.The great balancing act: regulation and fate of antiviral T-cell interactions Adhesions ring: a structural comparison between podosomes and the immune synapse.Inflammation on the mind: visualizing immunity in the central nervous system.Immunization against the transgene but not the TetON switch reduces expression from gutless adenoviral vectors in the brain.Functional anatomy of T cell activation and synapse formation.

P2860

Q27325064-D3E2FCBE-5C88-467F-996E-10BBC23DAEDE Q27490746-6F20FEB9-4B89-40EA-9C01-263145AB97A2 Q28282324-974B7CA7-CE1F-4010-A128-334F085A16A8 Q30485565-2AA682DD-21C1-40B0-9983-F846BB3844CB Q30493744-57AD6685-65A8-4228-BE6A-CFD621823223 Q30514126-5C7B2BE8-902B-4112-B3DB-A4DE83BFDEF5 Q33361577-F40AFAA5-2459-4034-B081-A2FEE5E14D14 Q33655401-310C225C-525B-4BDA-8325-850F289FCD68 Q33740759-4F141BBB-2D76-4BF1-9D55-61673A809F94 Q33746041-439A399E-FD12-4227-B713-DBCC2C6EEE4C Q33904294-13CBB6DE-A488-4873-ABA1-0D88BFE72C8B Q33913834-252DDC09-1E7E-46AE-8728-098DF7EAF932 Q34012284-E8D6522A-CC3A-4ABE-986F-EEA463BF5C2D Q34069598-207011AB-ACA4-4135-AE3D-DCBDF98495FB Q34162391-04FB98A1-AFA5-436A-8AC4-898FC22A1120 Q34178534-0AFA573B-0F78-4708-982E-C34EC4E21707 Q34235603-FF3E6101-F374-4E79-AA56-7EA6CF83A234 Q34268029-B49B2DD0-FB42-4678-89D8-5A76F2606F1A Q34340619-2B8C0F4E-46CF-4515-BC8D-1CF81A58147A Q35064839-34786D9A-720E-4604-9123-8C86A053C486 Q35125862-517EDF45-BC43-49D7-929A-68E304354F15 Q35185874-3A4FD528-5827-48DC-ADC7-502D020689AA Q35870480-7D69E426-187C-4F2B-BCF7-D3A8E43DB1DC Q35876228-3FFE58B3-9034-4E78-8F9D-9E1B77FFCFD8 Q36058899-15700BCA-63B8-4301-8059-24983621336F Q36274402-26236DE6-B7F9-443D-8787-28D758B084FF Q36296182-54CE9B0C-3621-463D-87DD-1367FFDDCB61 Q36498762-2C6C5074-5409-4805-8F48-68E7E0EEBBAA Q36498768-3D9A533A-6E4D-42FB-AC4B-380CDD8D945B Q36498773-507BE02C-444E-4BD6-AF3C-7BEDD0BF6891 Q36934011-C2F1FF3A-43E5-431D-AE9C-127B734B0AFC Q36937131-200E3CCD-BEB6-4286-A922-390D0AA72E42 Q37037317-FB43EDDB-3431-4C53-A8CE-853B334F3AFB Q37071948-90619788-79A6-4153-AACB-1BA601825FFD Q37084893-3FB26D5C-2522-44E9-809D-E5C4C5D91B85 Q37108443-FC96E210-F0CE-49B5-B915-7411C6436B84 Q37111157-04B47D9B-D42A-4F5E-865D-E8ECBB35FE15 Q37184161-2E15DF56-0BBD-4023-9C3F-83397A478FD3 Q37245006-E4BC8273-BED5-4083-8461-2C9998C4B105 Q37646737-11FE6770-3E23-4CC9-A3B2-B72AF9A986EE

P2860

In vivo mature immunological synapses forming SMACs mediate clearance of virally infected astrocytes from the brain

http://www.wikidata.org/entity/Q36019340

description

2006 nî lūn-bûn

@nan

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

2006年论文

@zh

2006年论文

@zh-cn

name

In vivo mature immunological s ...... cted astrocytes from the brain

@ast

In vivo mature immunological s ...... cted astrocytes from the brain

@en

type

label

In vivo mature immunological s ...... cted astrocytes from the brain

@ast

In vivo mature immunological s ...... cted astrocytes from the brain

@en

prefLabel

In vivo mature immunological s ...... cted astrocytes from the brain

@ast

In vivo mature immunological s ...... cted astrocytes from the brain

@en

P1433

Q36019340-5598E4EE-FFEB-4A14-88B3-3A71374E5382

P1476

Q36019340-EB99E2B0-1CA3-429A-A2D6-B6B94EC0A8EA

P2093

Q36019340-0411C5FB-A85A-4770-B6B4-EEC711D2404D

Q36019340-16C0F1A3-AEEF-42B4-89E1-F75EBBD2B6D1

Q36019340-3BCB10E5-BA63-4D32-AC0C-D1F9B1F9957A

Q36019340-3FD234BA-4629-47F1-88A5-2BA943113F42

Q36019340-45BF1FBE-370F-4E2D-93C9-492B25E0FCFA

Q36019340-64180E41-49E2-457B-A8E3-35FCBB9E8106

Q36019340-65488F85-9FEA-4D33-97B3-67789A5EC7A2

Q36019340-8110F042-04D3-404B-970C-056DB1E99ED4

Q36019340-CB0F8E12-8E9F-4FCC-A294-041C0450045C

Q36019340-D5ADBC1E-48A9-4295-B755-F2ED2F51A8FE

P2860

Q36019340-0B989EEA-8A1E-42E4-900B-B1AB7ED8AC57

Q36019340-0FC3B58C-50F4-4B70-BD52-2CCA862FB981

Q36019340-118F3C9C-6B50-493A-9AE7-95E7913EEFD0

Q36019340-1BCEA6BF-308F-46E8-A979-F22D49BCC903

Q36019340-264AA2EF-6F47-4C91-B01D-A7C2F8559CD5

Q36019340-2C51A2FB-DEC7-4CAA-AB12-05DA520E4675

Q36019340-2CF23040-023E-4401-9A2A-177E0381FB79

Q36019340-31CBA742-A0DE-45F1-A4BE-C00D10673AE8

Q36019340-32C4D091-3920-4E5C-823A-3F81F5FD112B

Q36019340-445FC256-762A-4B70-9D5B-6BF577625551

P304

Q36019340-7E6B5325-F0F3-4A6A-8252-2F365D81E7A8

P31

Q36019340-CCD2BD2B-5197-4301-9C77-DE8A637F75A8

P356

Q36019340-6A96EE0C-E8B9-4488-9A5E-BE673B80FFD8

P407

Q36019340-66925B17-F47A-4BC5-B277-C6DA154B849E

P433

Q36019340-0C773095-5D77-4E0D-97CD-DD4BE3247C2C

P478

Q36019340-9C5CC9EC-4B3C-466E-84BA-56A6E5336C5E

P50

Q36019340-3D7AD040-E43F-4750-B087-46E2F86DB7D0

P577

Q36019340-68BE80AF-4814-438D-8958-D92795D22939

P5875

Q36019340-5B2121E7-B926-4962-AA89-4EFDC8088612

P698

Q36019340-9F0A29BA-D48E-4C0C-A6FA-204B6CF83DA9

P921

Q36019340-a93e8ad0-ab30-4a93-8a34-a1c05efc0a3a

P932

Q36019340-1D85E63F-50B2-443F-9B46-0AA78B8C552D

P356

P1433

Journal of Experimental Medicine

P1476

In vivo mature immunological s ...... cted astrocytes from the brain

@en

P2093

Carlos Barcia

http://www.w3.org/2001/XMLSchema#string

Chunyan Liu

http://www.w3.org/2001/XMLSchema#string

Clare E Thomas

http://www.w3.org/2001/XMLSchema#string

David Klatzmann

http://www.w3.org/2001/XMLSchema#string

Gwendalyn D King

http://www.w3.org/2001/XMLSchema#string

James F Curtin

http://www.w3.org/2001/XMLSchema#string

Kolja Wawrowsky

http://www.w3.org/2001/XMLSchema#string

Kurt Kroeger

http://www.w3.org/2001/XMLSchema#string

Maria G Castro

http://www.w3.org/2001/XMLSchema#string

Marianela Candolfi

http://www.w3.org/2001/XMLSchema#string

P2860

The human natural killer cell immune synapse

The specific interaction of helper T cells and antigen-presenting B cells. IV. Membrane and cytoskeletal reorganizations in the bound T cell as a function of antigen dose

The immunological synapse: a molecular machine controlling T cell activation

T cell receptor signaling precedes immunological synapse formation

What is the importance of the immunological synapse?

Three-dimensional segregation of supramolecular activation clusters in T cells

The immunological synapse and the actin cytoskeleton: molecular hardware for T cell signaling.

Cytotoxic T lymphocytes form an antigen-independent ring junction

Functional expression of chemokine receptor CCR5 on CD4(+) T cells during virus-induced central nervous system disease.

Immunology of viral-vector-mediated gene transfer into the brain: an evolutionary and developmental perspective.

P304

2095-2107

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1084/JEM.20060420

http://www.w3.org/2001/XMLSchema#string

P407

P433

9

http://www.w3.org/2001/XMLSchema#string

P478

203

http://www.w3.org/2001/XMLSchema#string

P50

Jerzy W Kupiec-Weglinski

P577

2006-08-21T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P5875

6864045

http://www.w3.org/2001/XMLSchema#string

P698

16923851

http://www.w3.org/2001/XMLSchema#string

P921

P932

1997281

http://www.w3.org/2001/XMLSchema#string