Papers associated with astrocyte

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	A Focal Impact Model of Traumatic Brain Injury in Xenopus Tadpoles Reveals Behavioral Alterations, Neuroinflammation, and an Astroglial Response., Spruiell Eldridge SL., Int J Mol Sci. July 8, 2022; 23 (14):
	Trafficking of the glutamate transporter is impaired in LRRK2-related Parkinson's disease., Iovino L., Acta Neuropathol. July 1, 2022; 144 (1): 81-106.
	Sodium-calcium exchanger mediates sensory-evoked glial calcium transients in the developing retinotectal system., Benfey NJ., Cell Rep. October 5, 2021; 37 (1): 109791.
	Bruton's Tyrosine Kinase Inhibition Promotes Myelin Repair., Martin E., Brain Plast. October 1, 2020; 5 (2): 123-133.
	Energy Dynamics in the Brain: Contributions of Astrocytes to Metabolism and pH Homeostasis., Deitmer JW., Front Neurosci. March 15, 2019; 13 1301.
	A novel ATP1A2 mutation in a patient with hypokalaemic periodic paralysis and CNS symptoms., Sampedro Castañeda M., Brain. December 1, 2018; 141 (12): 3308-3318.
	Directional coupling of oligodendrocyte connexin-47 and astrocyte connexin-43 gap junctions., Fasciani I., Glia. November 1, 2018; 66 (11): 2340-2352.
	Aquaporin-4 facilitator TGN-073 promotes interstitial fluid circulation within the blood-brain barrier: [17O]H2O JJVCPE MRI study., Huber VJ., Neuroreport. June 13, 2018; 29 (9): 697-703.
	MicroRNA-31 is required for astrocyte specification., Meares GP., Glia. May 1, 2018; 66 (5): 987-998.
	Inwardly Rectifying K+ Currents in Cultured Oligodendrocytes from Rat Optic Nerve are Insensitive to pH., Pérez-Samartín A., Neurochem Res. September 1, 2017; 42 (9): 2443-2455.
	The neuronal and astrocytic protein SLC38A10 transports glutamine, glutamate, and aspartate, suggesting a role in neurotransmission., Hellsten SV., FEBS Open Bio. April 26, 2017; 7 (6): 730-746.
	JAK-STAT pathway activation in response to spinal cord injury in regenerative and non-regenerative stages of Xenopus laevis., Tapia VS., Regeneration (Oxf). February 1, 2017; 4 (1): 21-35.
	TPX2 promotes glioma cell proliferation and invasion via activation of the AKT signaling pathway., Gu JJ., Oncol Lett. December 1, 2016; 12 (6): 5015-5022.
	Gain-of-function defects of astrocytic Kir4.1 channels in children with autism spectrum disorders and epilepsy., Sicca F., Sci Rep. September 28, 2016; 6 34325.
	TRPV4 and AQP4 Channels Synergistically Regulate Cell Volume and Calcium Homeostasis in Retinal Müller Glia., Jo AO., J Neurosci. September 30, 2015; 35 (39): 13525-37.
	Astrocytes phagocytose focal dystrophies from shortening myelin segments in the optic nerve of Xenopus laevis at metamorphosis., Mills EA., Proc Natl Acad Sci U S A. August 18, 2015; 112 (33): 10509-14.
	Functional characterization of 5-oxoproline transport via SLC16A1/MCT1., Sasaki S., J Biol Chem. January 23, 2015; 290 (4): 2303-11.
	Genetically induced dysfunctions of Kir2.1 channels: implications for short QT3 syndrome and autism-epilepsy phenotype., Ambrosini E., Hum Mol Genet. September 15, 2014; 23 (18): 4875-86.
	Contributions of the Na⁺/K⁺-ATPase, NKCC1, and Kir4.1 to hippocampal K⁺ clearance and volume responses., Larsen BR., Glia. April 1, 2014; 62 (4): 608-22.
	ATP and potassium ions: a deadly combination for astrocytes., Jackson DG., Sci Rep. February 26, 2014; 4 4576.
	On-site energy supply at synapses through monocarboxylate transporters maintains excitatory synaptic transmission., Nagase M., J Neurosci. February 12, 2014; 34 (7): 2605-17.
	GlialCAM, a protein defective in a leukodystrophy, serves as a ClC-2 Cl(-) channel auxiliary subunit., Jeworutzki E., Neuron. March 8, 2012; 73 (5): 951-61.
	Time of day regulates subcellular trafficking, tripartite synaptic localization, and polyadenylation of the astrocytic Fabp7 mRNA., Gerstner JR., J Neurosci. January 25, 2012; 32 (4): 1383-94.
	WNK2 kinase is a novel regulator of essential neuronal cation-chloride cotransporters., Rinehart J., J Biol Chem. August 26, 2011; 286 (34): 30171-80.
	Specificity and actions of an arylaspartate inhibitor of glutamate transport at the Schaffer collateral-CA1 pyramidal cell synapse., Sun W., PLoS One. January 1, 2011; 6 (8): e23765.
	Soluble factors from IL-1β-stimulated astrocytes activate NR1a/NR2B receptors: implications for HIV-1-induced neurodegeneration., Jing T., Biochem Biophys Res Commun. November 12, 2010; 402 (2): 241-6.
	Calcineurin interacts with PERK and dephosphorylates calnexin to relieve ER stress in mammals and frogs., Bollo M., PLoS One. August 5, 2010; 5 (8): e11925.
	TWIK-1 and TREK-1 are potassium channels contributing significantly to astrocyte passive conductance in rat hippocampal slices., Zhou M., J Neurosci. July 1, 2009; 29 (26): 8551-64.
	Schwann cells promote synaptogenesis at the neuromuscular junction via transforming growth factor-beta1., Feng Z., J Neurosci. September 24, 2008; 28 (39): 9599-609.
	Reduced retina microglial activation and improved optic nerve integrity with minocycline treatment in the DBA/2J mouse model of glaucoma., Bosco A., Invest Ophthalmol Vis Sci. April 1, 2008; 49 (4): 1437-46.
	Functional interactions of Raf and MEK with Jun-N-terminal kinase (JNK) result in a positive feedback loop on the oncogenic Ras signaling pathway., Adler V., Biochemistry. August 16, 2005; 44 (32): 10784-95.
	Potassium channel gating in adhesion: from an oocyte-silicon to a neuron-astrocyte adhesion contact., Kiessling V., Eur Biophys J. March 1, 2005; 34 (2): 113-26.
	Astroglial glutamine transport by system N is upregulated by glutamate., Bröer A., Glia. December 1, 2004; 48 (4): 298-310.
	Localization and functional analyses of the MLC1 protein involved in megalencephalic leukoencephalopathy with subcortical cysts., Teijido O., Hum Mol Genet. November 1, 2004; 13 (21): 2581-94.
	Expression of novel isoforms of the CIC-1 chloride channel in astrocytic glial cells in vitro., Zhang XD., Glia. July 1, 2004; 47 (1): 46-57.
	Asymmetry of glutamine transporters in cultured neural cells., Heckel T., Neurochem Int. January 1, 2003; 43 (4-5): 289-98.
	Rna-binding protein Musashi2: developmentally regulated expression in neural precursor cells and subpopulations of neurons in mammalian CNS., Sakakibara S., J Neurosci. October 15, 2001; 21 (20): 8091-107.
	Neurogenin promotes neurogenesis and inhibits glial differentiation by independent mechanisms., Sun Y., Cell. February 9, 2001; 104 (3): 365-76.
	Fibroblast growth factor treatment produces differential effects on survival and neurite outgrowth from identified bulbospinal neurons in vitro., Pataky DM., Exp Neurol. June 1, 2000; 163 (2): 357-72.
	The electrogenic sodium bicarbonate cotransporter: developmental expression in rat brain and possible role in acid vulnerability., Giffard RG., J Neurosci. February 1, 2000; 20 (3): 1001-8.
	Heterotetrameric composition of aquaporin-4 water channels., Neely JD., Biochemistry. August 24, 1999; 38 (34): 11156-63.
	Isoform-specific regulation of the Na+/Ca2+ exchanger in rat astrocytes and neurons by PKA., He S., J Neurosci. July 1, 1998; 18 (13): 4833-41.
	Comparison of Na+-dependent glutamate transport activity in synaptosomes, C6 glioma, and Xenopus oocytes expressing excitatory amino acid carrier 1 (EAAC1)., Dowd LA., Mol Pharmacol. March 1, 1996; 49 (3): 465-73.
	Development of glial cytoarchitecture in the frog spinal cord., Maier CE., Dev Neurosci. January 1, 1995; 17 (3): 149-59.
	Expression of neurotransmitter receptors and Ca2+ channels in the adult fornix and optic nerve., Matute C., Neuroreport. July 21, 1994; 5 (12): 1457-60.
	A 28 kDa sarcolemmal antigen in kidney principal cell basolateral membranes: relationship to orthogonal arrays and MIP26., Verbavatz JM., J Cell Sci. April 1, 1994; 107 ( Pt 4) 1083-94.
	The adhesion molecule on glia (AMOG/beta 2) and alpha 1 subunits assemble to functional sodium pumps in Xenopus oocytes., Schmalzing G., J Biol Chem. October 5, 1992; 267 (28): 20212-6.
	L-glutamate transporter derived from mRNAs of primary glial cultures: expression in Xenopus laevis oocytes., Alcántara R., Brain Res Mol Brain Res. September 1, 1992; 15 (1-2): 167-70.
	An epithelium-type cytoskeleton in a glial cell: astrocytes of amphibian optic nerves contain cytokeratin filaments and are connected by desmosomes., Rungger-Brändle E., J Cell Biol. August 1, 1989; 109 (2): 705-16.
	Immunocytochemical identification of non-neuronal intermediate filament proteins in the developing Xenopus laevis nervous system., Szaro BG., Dev Biol. October 1, 1988; 471 (2): 207-24.

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