scholarly article | Q13442814 |
P356 | DOI | 10.1002/(SICI)1098-1136(199603)16:3<187::AID-GLIA1>3.0.CO;2-# |
P8608 | Fatcat ID | release_z2bqjz5bbvekpjowu5kcgwzbgi |
P698 | PubMed publication ID | 8833189 |
P2093 | author name string | Giaume C | |
Medina JM | |||
Tabernero A | |||
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P433 | issue | 3 | |
P921 | main subject | astrocyte | Q502961 |
P304 | page(s) | 187-195 | |
P577 | publication date | 1996-03-01 | |
P1433 | published in | Glia | Q15716658 |
P1476 | title | Endothelin-1 regulates glucose utilization in cultured astrocytes by controlling intercellular communication through gap junctions | |
P478 | volume | 16 |
Q51406547 | Activation of fibres in rat sciatic nerve alters phosphorylation state of connexin-43 at astrocytic gap junctions in spinal cord: evidence for junction regulation by neuronal-glial interactions. |
Q46450931 | Alterations in metabolism and gap junction expression may determine the role of astrocytes as "good samaritans" or executioners. |
Q35074272 | Astrocytes and stroke: networking for survival? |
Q30479376 | Astrocytes are poised for lactate trafficking and release from activated brain and for supply of glucose to neurons |
Q30483418 | Astrocytic connexin distributions and rapid, extensive dye transfer via gap junctions in the inferior colliculus: implications for [(14)C]glucose metabolite trafficking |
Q34167868 | Astroglial Wiring is Adding Complexity to Neuroglial Networking |
Q37678191 | Astroglial networks: a step further in neuroglial and gliovascular interactions. |
Q45713210 | Blocked gap junctional coupling increases glutamate-induced neurotoxicity in neuron-astrocyte co-cultures |
Q42942446 | Calcium waves between astrocytes from Cx43 knockout mice |
Q91984924 | Christian Giaume (November 1951-July 2019) |
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Q37019005 | Connexin and pannexin hemichannels in brain glial cells: properties, pharmacology, and roles |
Q44267117 | Connexin immunoreactivity in glial cells of the rat retina |
Q39672915 | Connexin43 inhibits the oncogenic activity of c-Src in C6 glioma cells |
Q46404427 | Connexin43 is involved in the effect of endothelin-1 on astrocyte proliferation and glucose uptake |
Q30392465 | Contributions of glycogen to astrocytic energetics during brain activation |
Q123151240 | Cx43 hemichannels contribute to astrocyte-mediated toxicity in sporadic and familial ALS |
Q44680734 | ET-1 induces cortical spreading depression via activation of the ETA receptor/phospholipase C pathway in vivo |
Q44429854 | Effect of endothelin-1 on astrocytic protein content |
Q46082560 | Effect of gap junction inhibition on intracerebral hemorrhage-induced brain injury in mice. |
Q48872945 | Expression and function of astrocytic gap junctions in aging |
Q48171362 | Extent of intercellular calcium wave propagation is related to gap junction permeability and level of connexin-43 expression in astrocytes in primary cultures from four brain regions |
Q60937210 | GJA1 (connexin43) is a key regulator of Alzheimer's disease pathogenesis |
Q74746855 | Gap junction wiring: a 'new' principle in cell-to-cell communication in the nervous system? |
Q47679147 | Gap junctional communication and pharmacological heterogeneity in astrocytes cultured from the rat striatum |
Q48650070 | Gap junctions equalize intracellular Na+ concentration in astrocytes |
Q73665994 | Gap junctions in the chicken pineal gland |
Q74120886 | Gap junctions in the nervous system |
Q36561137 | Glucose metabolism and proliferation in glia: role of astrocytic gap junctions |
Q44424128 | Glyceraldehyde 3‐phosphate dehydrogenase and endothelin‐1 immunoreactivity is associated with cerebral white matter damage in dentatorubral–pallidoluysian atrophy |
Q34182724 | HIF-1 and c-Src mediate increased glucose uptake induced by endothelin-1 and connexin43 in astrocytes |
Q42735909 | Hemichannel-mediated release of lactate. |
Q43705413 | High-glucose-induced metallothionein expression in endothelial cells: an endothelin-mediated mechanism |
Q42383635 | Increased intercellular communication in mouse astrocytes exposed to hyposmotic shocks |
Q42164686 | Increased levels of cyclins D1 and D3 after inhibition of gap junctional communication in astrocytes |
Q47622877 | Insulin-like growth factor-I increases astrocyte intercellular gap junctional communication and connexin43 expression in vitro |
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Q41554782 | Interrelationships between astrocyte function, oxidative stress and antioxidant status within the central nervous system. |
Q59491377 | Lactate spares glucose as a metabolic fuel in neurons and astrocytes from primary culture |
Q47554714 | Loss of Cx43-Mediated Functional Gap Junction Communication in Meningeal Fibroblasts Following Mouse Hepatitis Virus Infection |
Q40178608 | Microtubule-assisted altered trafficking of astrocytic gap junction protein connexin 43 is associated with depletion of connexin 47 during mouse hepatitis virus infection |
Q39604585 | Mouse Hepatitis Virus Infection Remodels Connexin43-Mediated Gap Junction Intercellular Communication In Vitro and In Vivo |
Q43825684 | Oligodendrocytes use lactate as a source of energy and as a precursor of lipids |
Q43821363 | Proliferation of C6 glioma cells is blunted by the increase in gap junction communication caused by tolbutamide |
Q30480246 | Selective astrocytic gap junctional trafficking of molecules involved in the glycolytic pathway: impact on cellular brain imaging |
Q43730302 | Sequential and opposite regulation of two outward K(+) currents by ET-1 in cultured striatal astrocytes |
Q48012316 | The K-ATP channel regulates the effect of Ca2+ on gap junction permeability in cultured astrocytes |
Q62556275 | The astrocytic syncytium |
Q43718629 | The enhancement of glucose uptake caused by the collapse of gap junction communication is due to an increase in astrocyte proliferation |
Q34750442 | Visualization and functional blocking of gap junction hemichannels (connexons) with antibodies against external loop domains in astrocytes |
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