about
Neuroinflammation in Multiple System Atrophy: Response to and Cause of α-Synuclein AggregationAltered morphological dynamics of activated microglia after induction of status epilepticus.Bone marrow-derived mesenchymal stem cells improve diabetes-induced cognitive impairment by exosome transfer into damaged neurons and astrocytes.Effects of oxygen-glucose deprivation on microglial mobility and viability in developing mouse hippocampal tissues.Qingkailing Suppresses the Activation of BV2 Microglial Cells by Inhibiting Hypoxia/Reoxygenation-Induced Inflammatory Responses.BV-2 microglial cells sense micro-nanotextured silicon surface topology.Microglial activation mediates host neuronal survival induced by neural stem cells.RNA-sequencing reveals oligodendrocyte and neuronal transcripts in microglia relevant to central nervous system disease.New findings about iron oxide nanoparticles and their different effects on murine primary brain cells.Systemic inflammation impairs respiratory chemoreflexes and plasticity.ATM kinase inhibition in glial cells activates the innate immune response and causes neurodegeneration in Drosophila.Activation of acid-sensing ion channels by localized proton transient reveals their role in proton signaling.Noninvasive molecular imaging of neuroinflammationMicroglia express distinct M1 and M2 phenotypic markers in the postnatal and adult central nervous system in male and female mice.Expression site of P2RY12 in residential microglial cells in astrocytomas correlates with M1 and M2 marker expression and tumor gradeThe brain's best friend: microglial neurotoxicity revisited.What is microglia neurotoxicity (Not)?Mechanisms of microglial activation in models of inflammation and hypoxia: Implications for chronic intermittent hypoxia.The Nuclear Receptor Nr4a1 Acts as a Microglia Rheostat and Serves as a Therapeutic Target in Autoimmune-Driven Central Nervous System Inflammation.Purinergic signaling in epilepsy.From the nucleus to the plasma membrane: translocation of the nuclear proteins histone H3 and lamin B1 in apoptotic microglia.Intravital imaging of dendritic spine plasticity.Caveolin-1 Protects Retinal Ganglion Cells against Acute Ocular Hypertension Injury via Modulating Microglial Phenotypes and Distribution and Activating AKT pathway.Characteristics of primary rat microglia isolated from mixed cultures using two different methods.Local proliferation is the main source of rod microglia after optic nerve transection.Bioenergetic regulation of microglia.Purinergic receptors P2Y12R and P2X7R: potential targets for PET imaging of microglia phenotypes in multiple sclerosis.Microglia activation regulates GluR1 phosphorylation in chronic unpredictable stress-induced cognitive dysfunction.Targeting the CD80/CD86 costimulatory pathway with CTLA4-Ig directs microglia toward a repair phenotype and promotes axonal outgrowth.Environmentally enriched pigs have transcriptional profiles consistent with neuroprotective effects and reduced microglial activity
P2860
Q26771536-9A905B85-758B-42BF-A94C-507B9379D83BQ27303510-0E286565-8527-48BB-A793-E9287C1ACAF6Q27319925-85AACF8A-F280-426F-BA82-13FE8A3E458BQ30547682-016221A5-C6FC-41B6-8F5E-FB419DE91D79Q33608619-A3F50F2A-6DE5-4842-9125-9B721CDA9898Q33980303-B19189C0-99C3-4A5A-BB26-F573D2DE49FDQ34011453-AC56889F-E110-46BE-A0E1-2254DE1480BAQ35091456-BB941679-07CD-453B-9F11-B593DCEC082AQ35191259-EF197EA9-A026-413C-B9E8-71A90E03C342Q35212454-979D50E3-F9ED-4301-A941-D4928C81E214Q35837175-362252A9-E584-4188-8372-DED935921039Q36059837-DE8C7952-D23C-479F-8CBD-109DB2AF8C44Q36079268-610B7078-D4D0-43C0-848C-2FC9D4C9A4C9Q37025027-EC0928E1-B8B8-4E3E-8BBF-CF8917C05313Q37576290-252F09BC-01D7-48DB-AEF4-4AA5EE63CA08Q38111761-0650EFC2-680E-4595-A4F0-D83E3C37C046Q38192968-62910C30-6EF5-4E64-9D52-B434CB323CA9Q38739054-F230FD9B-AC8A-4A45-AFA5-43AEBCD51A98Q38836172-9B055F6C-52C1-43BB-AE9C-177E79A429CDQ38865526-E249C817-E4D9-4CDD-9F3A-B090FD2A0B76Q39021916-9C404721-0E2A-4431-9346-D6AC51A773DDQ39153793-FCC7488A-A710-47BC-AB7F-B261839CC2E0Q41631913-35EEFC56-9932-4E30-A203-E7222C93FA66Q42044635-6F647C75-F6E9-46EA-9470-C486A9E9BA12Q43167868-62B4F0C9-EEEE-4439-ADBC-1564C33C36F3Q46004195-1C78943A-1D8B-4048-9C30-D433F6785AADQ47126490-A44FF757-9C95-48D6-85F3-A8E66AD88D81Q48158671-75ED4AA1-1220-45D8-933B-18CA18162327Q53407459-F7901924-85AC-458F-9928-4B327FE31E71Q58735341-DF243D72-BD27-4079-A78F-A0A0EE83BBA7
P2860
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 10 August 2010
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Microglia dynamics and function in the CNS.
@en
Microglia dynamics and function in the CNS.
@nl
type
label
Microglia dynamics and function in the CNS.
@en
Microglia dynamics and function in the CNS.
@nl
prefLabel
Microglia dynamics and function in the CNS.
@en
Microglia dynamics and function in the CNS.
@nl
P2860
P1476
Microglia dynamics and function in the CNS.
@en
P2093
Christopher N Parkhurst
Wen-Biao Gan
P2860
P304
P356
10.1016/J.CONB.2010.07.002
P577
2010-08-10T00:00:00Z