Activation of complement in the central nervous system: roles in neurodegeneration and neuroprotection.
about
Function, structure and therapeutic potential of complement C5a receptorsUsing animal models to determine the significance of complement activation in Alzheimer's diseaseSignaling pathways mediating a selective induction of nitric oxide synthase II by tumor necrosis factor alpha in nerve growth factor-responsive cellsComplement in the Homeostatic and Ischemic BrainMolecular mechanisms of inflammation and tissue injury after major trauma--is complement the "bad guy"?Cellular and molecular mediators of neuroinflammation in the pathogenesis of Parkinson's diseaseOn the Functional Overlap between Complement and Anti-Microbial PeptidesComplement C4B protein in schizophreniaOxidative stress and the regulation of complement activation in human glaucomaGangliosides play pivotal roles in the regulation of complement systems and in the maintenance of integrity in nerve tissues.Complement component C3 and complement receptor type 3 contribute to the phagocytosis and clearance of fibrillar Aβ by microgliaImmune complexes alter cerebral microvessel permeability: roles of complement and leukocyte adhesion.Genetically-defined deficiency of mannose-binding lectin is associated with protection after experimental stroke in mice and outcome in human strokeFunctional variant in complement C3 gene promoter and genetic susceptibility to temporal lobe epilepsy and febrile seizuresAlterations in the complement cascade in post-traumatic stress disorder.From Blood to Lesioned Brain: An In Vitro Study on Migration Mechanisms of Human Nasal Olfactory Stem Cells.Inhibition of C5a receptor alleviates experimental CNS lupus.Complement system in pathogenesis of AMD: dual player in degeneration and protection of retinal tissue.Complement: a novel factor in basal and ischemia-induced neurogenesisEvaluation of capsular and acapsular strains of S. aureus in an experimental brain abscess modelThe powerful neuroprotective action of C1-inhibitor on brain ischemia-reperfusion injury does not require C1qPolymorphisms in complement component 3 (C3F) and complement factor H (Y402H) increase the risk of postoperative neurocognitive dysfunction following carotid endarterectomy.Inhibition of the alternative complement activation pathway in traumatic brain injury by a monoclonal anti-factor B antibody: a randomized placebo-controlled study in mice.Lysosomal and phagocytic activity is increased in astrocytes during disease progression in the SOD1 (G93A) mouse model of amyotrophic lateral sclerosis.Challenging the role of adaptive immunity in neurotrauma: Rag1(-/-) mice lacking mature B and T cells do not show neuroprotection after closed head injury.Frontal cortex neuropathology in dementia pugilistica.Structural and functional anatomy of the globular domain of complement protein C1q.Guilty molecules, guilty minds? The conflicting roles of the innate immune response to traumatic brain injuryImmunological factors in the pathogenesis and treatment of age-related macular degeneration.Role of transcription factors in mediating post-ischemic cerebral inflammation and brain damage.New horizons for primary intracerebral hemorrhage treatment: experience from preclinical studies.670-nm light treatment reduces complement propagation following retinal degeneration.Role of complement C5a in mechanical inflammatory hypernociception: potential use of C5a receptor antagonists to control inflammatory painMutations of complement factor I and potential mechanisms of neuroinflammation in acute hemorrhagic leukoencephalitis.Microglia in cerebral ischemia: molecular actions and interactions.Complement component 3 inhibition by an antioxidant is neuroprotective after cerebral ischemia and reperfusion in miceNatural antibodies, autoantibodies and complement activation in tissue injury.C1q propagates microglial activation and neurodegeneration in the visual axis following retinal ischemia/reperfusion injury.GRK5 deficiency exaggerates inflammatory changes in TgAPPsw miceComplement components of nerve regeneration conditioned fluid influence the microenvironment of nerve regeneration.
P2860
Q24669712-C799E79B-6516-4171-BB8C-9CC6E2E03FFBQ24796236-79A81FA5-A84D-4C4F-A849-C539F6EFA7C9Q24814434-DA38C2E4-304E-4020-9F97-098E6CE812AEQ26796057-1DC13A7C-6802-40B9-B9AC-90F0E77582F9Q26825724-77906F20-85E3-4BE1-A3F9-4A92E9BC9EC4Q26849232-9A87D25E-C9DA-446C-A44D-E945ADE15DF0Q28082379-E42652E4-82E1-43B8-BA41-8EA06D03924DQ28248411-95E0AC5C-BEA3-43A0-8D10-2F52B9FC4B73Q28577665-64A92720-475A-428F-A781-EE7142CF501EQ30492292-876FE095-ACBD-4246-B0B4-5CA767FDF9B3Q30665205-39FD46BC-502F-47DF-9C64-8296F214FB03Q33237658-B1EFEEDF-F0D2-4FDD-BB88-60E43D43BB6CQ33530136-CC23FEF2-5B5F-4310-AA02-1292CB65BB58Q33700488-19EF27CB-7ABF-4296-8880-20C9DD9D4E4CQ33711810-F8681EB9-4E5E-4E58-8C1C-B22FEB92EB2DQ33862467-EF36604B-C83C-4E15-A73F-771532747AEFQ33985628-7B4BC55D-D4CC-4426-8EE4-E8F2954A6650Q34208123-367719A3-4387-4EA1-8C53-47C462DB26CCQ34500822-B05B8AF4-D9A5-4272-AD51-E1B22029099BQ34575461-E4AD264C-7CF1-4642-AFD2-646324EFA4D1Q35098041-58633DBD-EA5A-4CAA-9D14-95BB38782F83Q35632378-B74E6C1B-286B-493F-B317-0CA576860997Q35790611-3CEE29D1-4090-4E91-9FA4-2FB6966333ECQ35830165-BFC94489-59D1-4BB8-A986-C55B4F4420C1Q35886721-09C99950-A13C-4AD4-ADF6-A6DAE994B66EQ35886739-684102F9-CA79-4C7B-907A-8571A1786B92Q35896873-90A11DBB-3525-4483-8946-4AA5EAC1F2A6Q36026673-5872B17F-DA9C-4925-8136-F10E502A75D6Q36086191-D876FB8E-1FCD-4A62-9F1B-36431F17619CQ36089101-A02AED42-E7CF-4698-8C87-666A3B67B745Q36104043-6F2073F5-3DB0-4CB9-A59D-D14CA89C1387Q36454668-511526CE-2583-46B9-A8E2-1F09DE924900Q36495139-2AF38AA6-AA56-430B-B33E-6C133D614E59Q36518142-3275B6B2-6DF0-4609-884B-FAA32203A488Q36538353-40015151-EEAC-44BC-AE8B-A3C799A64115Q36569510-07693969-EB6D-4EFB-81A4-08E7B308E3C3Q36572982-564B8823-6948-40D7-98D9-A8FC9DB35820Q36725354-F1707478-5BB9-4C86-8176-E1012660A529Q36740925-3B356DEC-6326-40BA-A4C7-79E1718A5C5AQ36911769-B69BCA38-B79B-4D58-981B-CC455A1C9E30
P2860
Activation of complement in the central nervous system: roles in neurodegeneration and neuroprotection.
description
2003 nî lūn-bûn
@nan
2003 թուականի Մայիսին հրատարակուած գիտական յօդուած
@hyw
2003 թվականի մայիսին հրատարակված գիտական հոդված
@hy
2003年の論文
@ja
2003年論文
@yue
2003年論文
@zh-hant
2003年論文
@zh-hk
2003年論文
@zh-mo
2003年論文
@zh-tw
2003年论文
@wuu
name
Activation of complement in th ...... eneration and neuroprotection.
@ast
Activation of complement in th ...... eneration and neuroprotection.
@en
type
label
Activation of complement in th ...... eneration and neuroprotection.
@ast
Activation of complement in th ...... eneration and neuroprotection.
@en
prefLabel
Activation of complement in th ...... eneration and neuroprotection.
@ast
Activation of complement in th ...... eneration and neuroprotection.
@en
P2860
P1476
Activation of complement in th ...... eneration and neuroprotection.
@en
P2093
Johan van Beek
Kristina Elward
P2860
P356
10.1111/J.1749-6632.2003.TB03138.X
P407
P577
2003-05-01T00:00:00Z