Angiotensin II sustains brain inflammation in mice via TGF-beta
about
Autonomic-Immune-Vascular Interaction: An Emerging Concept for Neurogenic HypertensionSignal pathways in astrocytes activated by cross-talk between of astrocytes and mast cells through CD40-CD40LA modern understanding of the traditional and nontraditional biological functions of angiotensin-converting enzymeDopamine Receptors and NeurodegenerationNeuroprotective mechanisms of the ACE2-angiotensin-(1-7)-Mas axis in strokeReview article: the pathophysiological roles of the renin-angiotensin system in the gastrointestinal tractType-1 angiotensin receptor signaling in central nervous system myeloid cells is pathogenic during fatal alphavirus encephalitis in miceRole of neurons and glia in the CNS actions of the renin-angiotensin system in cardiovascular controlPro-cognitive properties of T cells.Candesartan, an angiotensin II AT₁-receptor blocker and PPAR-γ agonist, reduces lesion volume and improves motor and memory function after traumatic brain injury in mice.Astrocytic transforming growth factor-beta signaling reduces subacute neuroinflammation after stroke in miceTGFβ produced by IL-10 redirected astrocytes attenuates microglial activationLosartan prevents acquired epilepsy via TGF-β signaling suppressionTGF-β signaling initiated in dendritic cells instructs suppressive effects on Th17 differentiation at the site of neuroinflammationDirect pro-inflammatory effects of prorenin on microglia.Blockade of brain angiotensin II AT1 receptors ameliorates stress, anxiety, brain inflammation and ischemia: Therapeutic implications.Gli1 activation and protection against hepatic encephalopathy is suppressed by circulating transforming growth factor β1 in mice.AT1 receptor antagonism does not influence early radiation-induced changes in microglial activation or neurogenesis in the normal rat brain.Combined renin inhibition/(pro)renin receptor blockade in diabetic retinopathy--a study in transgenic (mREN2)27 rats.Involvement of PPAR-γ in the neuroprotective and anti-inflammatory effects of angiotensin type 1 receptor inhibition: effects of the receptor antagonist telmisartan and receptor deletion in a mouse MPTP model of Parkinson's disease.Angiotensin II AT(1) receptor blockers ameliorate inflammatory stress: a beneficial effect for the treatment of brain disorders.Nontraditional roles of angiotensin-converting enzyme.Exacerbation of autoimmune neuroinflammation by dietary sodium is genetically controlled and sex specific.Frataxin Deficiency Promotes Excess Microglial DNA Damage and Inflammation that Is Rescued by PJ34Telmisartan Modulates Glial Activation: In Vitro and In Vivo StudiesAGTR1 gene variation: association with depression and frontotemporal morphology.Telmisartan directly ameliorates the neuronal inflammatory response to IL-1β partly through the JNK/c-Jun and NADPH oxidase pathways.Activation of MyD88-dependent TLR1/2 signaling by misfolded α-synuclein, a protein linked to neurodegenerative disorders.Expression of angiotensinogen and receptors for angiotensin and prorenin in the rat and monkey striatal neurons and glial cells.Angiotensin II AT(1) receptor blockers as treatments for inflammatory brain disorders.Targeting the TGFβ signalling pathway in disease.Roles of Brain Angiotensin II in Cognitive Function and Dementia.Wnt/β-catenin signaling and renin-angiotensin system in chronic kidney disease.Expression of angiotensinogen and receptors for angiotensin and prorenin in the monkey and human substantia nigra: an intracellular renin-angiotensin system in the nigraThe gene expression profiles of induced pluripotent stem cells from individuals with childhood cerebral adrenoleukodystrophy are consistent with proposed mechanisms of pathogenesisCross talk between AT1 receptors and Toll-like receptor 4 in microglia contributes to angiotensin II-derived ROS production in the hypothalamic paraventricular nucleusProtein kinase Cβ as a therapeutic target stabilizing blood-brain barrier disruption in experimental autoimmune encephalomyelitisAAV8-Mediated Angiotensin-Converting Enzyme 2 Gene Delivery Prevents Experimental Autoimmune Uveitis by Regulating MAPK, NF-κB and STAT3 PathwaysTGFβ regulates persistent neuroinflammation by controlling Th1 polarization and ROS production via monocyte-derived dendritic cells.Stromal cells control the epithelial residence of DCs and memory T cells by regulated activation of TGF-β.
P2860
Q22306336-4611EDD5-119F-47EC-BD31-D6787FD7D519Q24297472-7905431B-711F-4B3C-AC51-5603086D170BQ24306614-19F75F70-CFB7-4A07-9B76-40CDBC3FD45AQ26783348-D1AFA12C-253E-4C8C-828D-09EC63287A0AQ26998948-87893006-6AEB-4DF9-B583-753A2C137B90Q27009109-D2F6645A-0EEB-4D36-86E1-01A8E8DB3A35Q27468826-F4CECFDD-ACD6-489A-81E0-E1596D89E852Q28081615-AFD38C6B-8639-47A7-A495-0BD43302B355Q30412966-CA0A6856-AA2E-4B2D-9644-6C1AC6738D5BQ30528431-8859090B-D86A-47AC-A385-36D0D8FFCCC7Q33769818-331CDA53-4B29-47E5-BAEC-EF5158206207Q33771600-6E1197B3-8197-4C1A-91DF-D0CB87E488C6Q33831494-FB4B6FEB-A229-4344-A6B0-676A068E48E5Q33967281-C6666FF2-30A2-4D1E-892C-AC06D1F4C597Q34323132-C4070477-2FF3-4C32-9127-53C639A26B52Q34390088-58AB3B59-C622-4F91-9166-AF707D7813F1Q34620012-707843AB-BEDD-497C-BAB8-9875C35B2B6DQ35173719-8518F96C-CDC4-4582-A874-9B4B6E743782Q35195660-4FA1A100-D3E8-4FF8-9A34-11A41D6CF1CDQ35819219-C0CD84F3-3C17-4561-8A51-7B689E6B4F17Q35827935-2DCBC004-3159-4BFC-8602-ED531652937AQ35836666-8A367236-AD7B-450E-9155-AFEE1A1CE0ADQ35878979-A5344742-750E-4C26-9D95-BCD351BCED92Q35949121-26C39B14-87E5-4D94-9449-DE0C21BB0BB8Q36019970-066C9E8D-752E-4F13-B752-EF19337349C6Q36098738-8D3C9072-771B-440D-BC90-77D7860D6F3FQ36136825-3992BB63-26F7-4CC0-8069-4D55B748E5C7Q36148314-2F015C32-6FF4-42A5-A57F-C003DD9E52D7Q36270869-43F8B08F-8726-467E-9E84-F1DB48E3E27AQ36410269-79EB2414-A639-4A3A-A795-D5048090B697Q36462348-7FAF87C3-5ABA-4A11-BACD-E7AA434420F2Q36487749-6CB41BEC-FC24-48CC-A62B-67500A918793Q36630037-4482C196-EA45-413A-A704-0BA17BEC565FQ36632049-219E4E0C-F4BE-484B-88F3-B1313F8C3E6EQ36632900-B7CDE22E-8569-42A7-ADC5-88EB71140EC8Q36699626-38C5A6AE-4D6A-4B13-873A-5811B1476962Q37157311-8EEDA023-2764-48E9-A383-1A08ADFF8C95Q37202385-55701A10-87D4-45BF-9356-C51D61AB3CFDQ37316413-C6D7D006-F7E8-4FE3-BF73-C3D737E02212Q37468713-E0DDB0D6-79F7-4704-8EB2-09C40C21737A
P2860
Angiotensin II sustains brain inflammation in mice via TGF-beta
description
2010 nî lūn-bûn
@nan
2010 թուականի Յուլիսին հրատարակուած գիտական յօդուած
@hyw
2010 թվականի հուլիսին հրատարակված գիտական հոդված
@hy
2010年の論文
@ja
2010年論文
@yue
2010年論文
@zh-hant
2010年論文
@zh-hk
2010年論文
@zh-mo
2010年論文
@zh-tw
2010年论文
@wuu
name
Angiotensin II sustains brain inflammation in mice via TGF-beta
@ast
Angiotensin II sustains brain inflammation in mice via TGF-beta
@en
Angiotensin II sustains brain inflammation in mice via TGF-beta
@nl
type
label
Angiotensin II sustains brain inflammation in mice via TGF-beta
@ast
Angiotensin II sustains brain inflammation in mice via TGF-beta
@en
Angiotensin II sustains brain inflammation in mice via TGF-beta
@nl
prefLabel
Angiotensin II sustains brain inflammation in mice via TGF-beta
@ast
Angiotensin II sustains brain inflammation in mice via TGF-beta
@en
Angiotensin II sustains brain inflammation in mice via TGF-beta
@nl
P2093
P2860
P356
P1476
Angiotensin II sustains brain inflammation in mice via TGF-beta
@en
P2093
Ankur N Agrawal
Hrishikesh Srinagesh
Lawrence Steinman
Peggy P Ho
Robert Axtell
Tobias V Lanz
Tony Wyss-Coray
Zhaoqing Ding
P2860
P304
P356
10.1172/JCI41709
P407
P577
2010-07-12T00:00:00Z