Astrocytic endfoot Ca2+ and BK channels determine both arteriolar dilation and constriction.
about
Thimerosal-Derived Ethylmercury Is a Mitochondrial Toxin in Human Astrocytes: Possible Role of Fenton Chemistry in the Oxidation and Breakage of mtDNAHuman immunodeficiency virus infection of human astrocytes disrupts blood-brain barrier integrity by a gap junction-dependent mechanismVascular inward rectifier K+ channels as external K+ sensors in the control of cerebral blood flowCrystal Structure of a Ba2+-Bound Gating Ring Reveals Elementary Steps in RCK Domain ActivationFluid and ion transfer across the blood-brain and blood-cerebrospinal fluid barriers; a comparative account of mechanisms and rolesSpreading Depression, Spreading Depolarizations, and the Cerebral VasculatureBK Channels in the Central Nervous System.Astrocyte IP3R2-dependent Ca(2+) signaling is not a major modulator of neuronal pathways governing behaviorRegional registration of [6-(14)C]glucose metabolism during brain activation of α-syntrophin knockout mice.Ectopic vesicular neurotransmitter release along sensory axons mediates neurovascular coupling via glial calcium signalingIn vivo 3D morphology of astrocyte-vasculature interactions in the somatosensory cortex: implications for neurovascular coupling.Inversion of neurovascular coupling by subarachnoid blood depends on large-conductance Ca2+-activated K+ (BK) channels.Spontaneous calcium waves in Bergman glia increase with age and hypoxia and may reduce tissue oxygen.TRPV4 channels stimulate Ca2+-induced Ca2+ release in astrocytic endfeet and amplify neurovascular coupling responses.Quasi-periodic patterns (QPP): large-scale dynamics in resting state fMRI that correlate with local infraslow electrical activity.Stress-induced glucocorticoid signaling remodels neurovascular coupling through impairment of cerebrovascular inwardly rectifying K+ channel functionNeuronal networks and mediators of cortical neurovascular coupling responses in normal and altered brain states.Purinergic regulation of vascular tone in the retrotrapezoid nucleus is specialized to support the drive to breathe.The neurovascular unit in brain function and disease.Intermediate-conductance calcium-activated potassium channels participate in neurovascular coupling.Epoxyeicosatrienoic acid-dependent cerebral vasodilation evoked by metabotropic glutamate receptor activation in vivo.Revisiting the role of neurons in neurovascular couplingDisruption of astrocyte-vascular coupling and the blood-brain barrier by invading glioma cells.Vascular tone and neurovascular coupling: considerations toward an improved in vitro model.Spatial memory decline after masticatory deprivation and aging is associated with altered laminar distribution of CA1 astrocytesAstrocytic Gq-GPCR-linked IP3R-dependent Ca2+ signaling does not mediate neurovascular coupling in mouse visual cortex in vivo.Specific in vivo staining of astrocytes in the whole brain after intravenous injection of sulforhodamine dyes.Role of epoxyeicosatrienoic acids as autocrine metabolites in glutamate-mediated K+ signaling in perivascular astrocytes.Astrocyte inositol triphosphate receptor type 2 and cytosolic phospholipase A2 alpha regulate arteriole responses in mouse neocortical brain slices.Interactions between adenosine and K+ channel-related pathways in the coupling of somatosensory activation and pial arteriolar dilation.Purinergic mechanisms in gliovascular couplingCerebral blood flow modulation by Basal forebrain or whisker stimulation can occur independently of large cytosolic Ca2+ signaling in astrocytes.Regulation of neurovascular coupling in autoimmunity to water and ion channelsImpact of heme and heme degradation products on vascular diameter in mouse visual cortexContralateral dissociation between neural activity and cerebral blood volume during recurrent acute focal neocortical seizuresGlutamate-induced calcium signals stimulate CO production in piglet astrocytes.Lactate dilates cochlear capillaries via type V fibrocyte-vessel coupling signaled by nNOSPotassium channels and neurovascular coupling.Astrocyte contributions to flow/pressure-evoked parenchymal arteriole vasoconstrictionDysfunction of mouse cerebral arteries during early aging.
P2860
Q21296653-148A7E9B-B1ED-4025-A2E2-AA1F834B50F1Q24594703-45889EAE-F819-4CBD-9F23-1DF736220A9DQ26864921-F2DAD4F3-C8E5-41B3-B185-3D61CE66BCC2Q27674641-1B4BB2ED-1A5F-4E9B-9AA6-613E73C8052AQ28074564-C8804203-BE1B-4918-BEEB-1B5FB3E188FFQ28264417-E5C66681-15CA-4E5E-9D30-3CCE343AF3A7Q30356551-40727280-84AD-44AD-93CD-002DA1DEF3C3Q30424562-4A76DC2E-8093-41CB-85F3-03F563B51B2CQ30434316-F8A60F41-5A7F-44C6-9BF3-A4A51E941602Q30496364-1A5D8CEB-2115-4FEE-9529-8BC6AF417A60Q30499080-D694BF13-AE3F-4948-B2E5-32140470CD71Q30514232-AA5C37D0-153F-4914-B85F-1803E67B1200Q30534484-80340E39-51A0-47CA-A826-A5B8192003DBQ30538817-3D7CB33E-7A85-443E-A6AA-984563DEF3C5Q30560247-73AAAECF-0762-4A58-AC30-15F0CC2D8F26Q30578856-7B31837B-65C8-4BE1-AE1A-133D58F9B8BAQ31125447-05F2A19E-7E32-4D32-8033-C546102B6AAAQ33649434-8671B12A-9BA6-4B86-B843-8AFD81772A1FQ33805295-E0A008BC-0F5B-4D2A-A89B-5ED56BB47839Q33877765-76571B5C-37A6-4264-B9F8-EA997700990BQ33908066-6E79B3EC-8D5E-4527-8F7A-D99B55A356BCQ33972731-7E01091B-A0E8-4179-8A77-50B4FD994FD3Q34023246-A4EA510B-98EA-42F5-9C7B-87EA98598D80Q34085945-D8672BC2-A5D7-4B59-BF6F-3AE36A001D69Q34178937-AE133680-F3DD-4F9E-9609-F536FEF1140AQ34233464-F21D4E94-696E-4109-A151-395CF7AD195BQ34235610-86F73DB2-3015-4EF2-BC37-8D83D2693264Q34304984-AFC49F3F-AEA7-413F-95E7-A8BC09E566D4Q34372565-76FFBBC3-7C5F-4358-A9F9-7E8DB00D2945Q34426227-F288C8E7-7EBE-4C70-A13D-4EF6357E9DA3Q34762153-9D60FFDD-AEC5-47BA-90F5-10B7E43C81DDQ34778937-FB8E1FDF-6F53-41A9-94EA-C1460FF446B6Q35001946-B7F2527F-CC4B-4D12-8DA8-4FF51B633BC6Q35026447-043A26CC-9B25-415D-B9E2-10DE971388BBQ35107946-FE1ABA1E-997A-41AB-84EC-E1563E4E646DQ35159897-C78C4243-E1E4-4449-866D-42F059A87041Q35395440-5939B7A1-556C-4DBC-81D6-C487F28EB2FBQ35510178-318CE15A-4A4B-4088-AB43-0699F8A20476Q35649520-E1CBBA2E-7F3B-471C-A820-C70D1AF434B2Q35658709-DC09212F-DDDD-4A05-AF8E-1E942334670E
P2860
Astrocytic endfoot Ca2+ and BK channels determine both arteriolar dilation and constriction.
description
2010 nî lūn-bûn
@nan
2010 թուականի Փետրուարին հրատարակուած գիտական յօդուած
@hyw
2010 թվականի փետրվարին 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
Astrocytic endfoot Ca2+ and BK ...... lar dilation and constriction.
@ast
Astrocytic endfoot Ca2+ and BK ...... lar dilation and constriction.
@en
type
label
Astrocytic endfoot Ca2+ and BK ...... lar dilation and constriction.
@ast
Astrocytic endfoot Ca2+ and BK ...... lar dilation and constriction.
@en
prefLabel
Astrocytic endfoot Ca2+ and BK ...... lar dilation and constriction.
@ast
Astrocytic endfoot Ca2+ and BK ...... lar dilation and constriction.
@en
P2093
P2860
P356
P1476
Astrocytic endfoot Ca2+ and BK ...... olar dilation and constriction
@en
P2093
Adrian D Bonev
Hélène Girouard
Rachael M Hannah
Richard W Aldrich
P2860
P304
P356
10.1073/PNAS.0914722107
P407
P577
2010-02-02T00:00:00Z