ACS chemical neuroscience

PloS one

progress in neuro-psychopharmacology & biological psychiatry

plos medicine

Environmental science & technology

international immunopharmacology

biochemical pharmacology

cellular and molecular neurobiology

Frontiers in immunology

Biomolecules

alzheimer's & dementia (new york, n y)

neuroscience

anatomical record (hoboken, nj : 2007)

Frontiers in integrative neuroscience

glia

Journal of neuro-ophthalmology : the official journal of the North American Neuro-Ophthalmology Society

experimental neurology

Journal of the neurological sciences

journal of neuroscience research

Neural regeneration research

Journal of neuroinflammation

current cancer drug targets

[1] Pío del Río-Hortega: The Revolution of Glia.

[2] Factors associated with newborn care knowledge and practices in the upper Himalayas.

[3] Psychosocial working conditions, trajectories of disability, and the mediating role of cognitive decline and chronic diseases: A population-based cohort study.

[4] A single systemic inflammatory insult causes acute motor deficits and accelerates disease progression in a mouse model of human tauopathy.

[5] Saikosaponin-d attenuated lipopolysaccharide-induced depressive-like behaviors via inhibiting microglia activation and neuroinflammation.

[6] Glial cells in intracerebral transplantation for Parkinson's disease.

[7] Sulforaphane attenuates Aβ oligomers mediated decrease in phagocytic activity of microglial cells.

[8] Serum Amyloid A is Expressed in the Brain After Traumatic Brain Injury in a Sex-Dependent Manner.

[9] Systemic microbial TLR2 agonists induce neurodegeneration in Alzheimer's disease mice.

[10] Intracerebral hemorrhage in the mouse altered sleep-wake patterns and activated microglia.

[11] Microglial responses after phagocytosis: Escherichia coli bioparticles, but not cell debris or amyloid beta, induce matrix metalloproteinase-9 secretion in cultured rat primary microglial cells.

[12] Fast Evolution of Sulfuric Acid Aerosol Activated by External Fields for Enhanced Emission Control.

[13] Effects of vaccination on acute-phase protein response in broiler chicken.

[14] Retinoic acid inducible gene-I mediated detection of bacterial nucleic acids in human microglial cells.

[15] Inhibition of glial hemichannels by boldine treatment reduces neuronal suffering in a murine model of Alzheimer's disease.

[16] primary phagocytosis of neurons by inflamed microglia: potential roles in neurodegeneration

[17] thromboxane a2 receptor stimulation enhances microglial interleukin-1β and no biosynthesis mediated by the activation of erk pathway

[18] optic nerve degeneration after retinal ischemia/reperfusion in a rodent model

[19] increased expression of osteopontin in retinal degeneration induced by blue light-emitting diode exposure in mice

[20] exploring the role of microglia in mood disorders associated with experimental multiple sclerosis

[21] microglia and monocyte-derived macrophages: functionally distinct populations that act in concert in cns plasticity and repair

[22] the role of stefin b in neuro-inflammation

[23] subtype and regional-specific neuroinflammation in sporadic creutzfeldt-jakob disease

[24] magnetic resonance imaging of glutamate in neuroinflammation

[25] analyzing nicotinamide adenine dinucleotide phosphate oxidase activation in aging and vascular amyloid pathology

[26] a peephole into the brain: neuropathological features of alzheimer’s disease revealed by in vivo two-photon imaging

[27] loss of irf2bp2 in microglia increases inflammation and functional deficits after focal ischemic brain injury

[28] role of estrogen receptors in the regulation of reactive gliosis

[29] possible role of glial cells in the relationship between thyroid dysfunction and mental disorders

[30] a novel microfluidic cell co-culture platform for the study of the molecular mechanisms of parkinson’s disease and other synucleinopathies

[31] neuroimmunology of the interleukins 13 and 4

[32] nitric oxide from inflammatory origin impairs neural stem cell proliferation by inhibiting epidermal growth factor receptor signaling

[33] microglia and synapse interactions: fine tuning neural circuits and candidate molecules

[34] deciphering the astrocyte reaction in alzheimer’s disease

[35] distinction of neurons, glia and endothelial cells in the cerebral cortex: an algorithm based on cytological features

[36] il-2/anti-il-2 complex attenuates inflammation and bbb disruption in mice subjected to traumatic brain injury

[37] glial-neuronal ensembles: partners in drug addiction-associated synaptic plasticity

[38] neuronal and microglial regulators of cortical wiring: usual and novel guideposts

[39] transplantation of human menstrual blood-derived mesenchymal stem cells alleviates alzheimer’s disease-like pathology in app/ps1 transgenic mice

[40] immunosuppressive mechanisms of malignant gliomas: parallels at non-cns sites

[41] editorial: single membrane channels formed by connexins or pannexins: focus on the nervous system

[42] extracellular vesicles as mediators of neuron-glia communication

[43] developmental neurotoxicity of 3,3',4,4'-tetrachloroazobenzene with thyroxine deficit: sensitivity of glia and dentate granule neurons in the absence of behavioral changes

[44] quantitating the subtleties of microglial morphology with fractal analysis

[45] the role of the innate immune system in als

[46] p2x4 receptors and neuropathic pain

[47] glia and zinc in ageing and alzheimer’s disease: a mechanism for cognitive decline?

[48] the detection methods of egfr mutations in non-small cell lung cancer

[49] stress-induced neuroinflammatory priming: a liability factor in the etiology of psychiatric disorders

[50] potential primary roles of glial cells in the mechanisms of psychiatric disorders

[51] p2x4 receptor function in the nervous system and current breakthroughs in pharmacology

[52] extracellular nucleotides and adenosine regulate microglial motility and their role in cerebral ischemia

[53] the anti-inflammatory effects of lipoxygenase and cyclo-oxygenase inhibitors in inflammation-induced human fetal glia cells and the aβ degradation capacity of human fetal astrocytes in an ex vivo assay

[54] olfactory sensory activity modulates microglial-neuronal interactions during dopaminergic cell loss in the olfactory bulb

[55] microglia after seizures and in epilepsy

[56] regulation of gap junction channels by infectious agents and inflammation in the cns

[57] editorial: cytokines as players of neuronal plasticity and sensitivity to environment in healthy and pathological brain

[58] forced treadmill exercise can induce stress and increase neuronal damage in a mouse model of global cerebral ischemia

[59] microglial activation in traumatic brain injury

[60] Activated Microglia in the Early Stage of a Rat Model of Parkinson's Disease: Revealed by PET-MRI Imaging by [F]DPA-714 Targeting TSPO.

[61] Optic Tract Involvement in a Patient With Relapsing Polychondritis.

[62] Intermittent hypoxic training - derived exosomes in stroke rehabilitation.

[63] In vivo reactive astrocyte imaging using [F]SMBT-1 in tauopathy and familial Alzheimer's disease mouse models: A multi-tracer study.

[64] The Inhibition of Bromodomain and Extraterminal Domain (BET) Proteins Protects Against Microglia-Mediated Neuronal Loss In Vitro.

[65] Anti-Inflammatory and Cytoprotective Effects of TMC-256C1 from Marine-Derived Fungus Aspergillus sp. SF-6354 via up-Regulation of Heme Oxygenase-1 in Murine Hippocampal and Microglial Cell Lines

[66] High-glucose/high-cholesterol diet in zebrafish evokes diabetic and affective pathogenesis: The role of peripheral and central inflammation, microglia and apoptosis.

[67] Microglia-neuron interactions in the models of neuropathic pain.

[68] Reactive microglia and astrocytes in neonatal intraventricular hemorrhage model are blocked by mesenchymal stem cells.

[69] Sustained microglial depletion with CSF1R inhibitor impairs parenchymal plaque development in an Alzheimer’s disease model

[70] Glucocorticoid receptors modulate dendritic spine plasticity and microglia activity in an animal model of Alzheimer's disease

[71] Characteristics of primary rat microglia isolated from mixed cultures using two different methods

[72] Highly selective microglial uptake of ceria-zirconia nanoparticles for enhanced analgesic treatment of neuropathic pain.

[73] Exploiting Microglial Functions for the Treatment of Glioblastoma.

[74] Exploiting microglial functions for the treatment of glioblastoma

[75] Lion's Mane Mushroom, (Bull.: Fr.) Pers. Suppresses HO-Induced Oxidative Damage and LPS-Induced Inflammation in HT22 Hippocampal Neurons and BV2 Microglia.

[76] (+)-Catechin, an Ingredient of Green Tea, Protects Murine Microglia From Oxidative Stress-Induced DNA Damage and Cell Cycle Arrest

[77] Differential effects of TSPO ligands on mitochondrial function in mouse microglia cells.

[78] Saikosaponin-d attenuated lipopolysaccharide-induced depressive-like behaviors via inhibiting microglia activation and neuroinflammation.

[79] Isosteviol Sodium Protects against Ischemic Stroke by Modulating Microglia/Macrophage Polarization via Disruption of GAS5/miR-146a-5p sponge.

[80] Malva parviflora extract ameliorates the deleterious effects of a high fat diet on the cognitive deficit in a mouse model of Alzheimer’s disease by restoring microglial function via a PPAR-γ-dependent mechanism

[81] Single Eye mRNA-Seq Reveals Normalisation of the Retinal Microglial Transcriptome Following Acute Inflammation

[82] Sulforaphane attenuates Aβ oligomers mediated decrease in phagocytic activity of microglial cells.

[83] Pellino1 Contributes to Morphine Tolerance by Microglia Activation via MAPK Signaling in the Spinal Cord of Mice.

[84] Novel Ocellatin Peptides Mitigate LPS-induced ROS Formation and NF-kB Activation in Microglia and Hippocampal Neurons.

[85] The VGF-derived peptide TLQP21 impairs purinergic control of chemotaxis and phagocytosis in mouse microglia.

[86] Molecular hydrogen attenuates sepsis-induced neuroinflammation through regulation of microglia polarization through an mTOR-autophagy-dependent pathway.

[87] Innate sensing of mechanical properties of brain tissue by microglia.

[88] Riluzole improves functional recovery after acute spinal cord injury in rats and may be associated with changes in spinal microglia/macrophages polarization.

[89] Intracerebral hemorrhage in the mouse altered sleep-wake patterns and activated microglia.

[90] Microglial responses after phagocytosis: Escherichia coli bioparticles, but not cell debris or amyloid beta, induce matrix metalloproteinase-9 secretion in cultured rat primary microglial cells.

[91] Cytoplasmic-predominant Pten increases microglial activation and synaptic pruning in a murine model with autism-like phenotype.

[92] Shifting equilibriums in Alzheimer's disease: The complex roles of microglia in neuroinflammation, neuronal survival and neurogenesis

[93] Non-toxic HSC Transplantation-Based Macrophage/Microglia-Mediated GDNF Delivery for Parkinson's Disease

[94] Dissociation of neonatal and adult mice brain for simultaneous analysis of microglia, astrocytes and infiltrating lymphocytes by flow cytometry

[95] Exosome-mediated crosstalk between microglia and neural stem cells in the repair of brain injury

[96] A metabolomics study: CdTe/ZnS quantum dots induce polarization in mice microglia

[97] The role of microglia in neuroprogressive disorders: mechanisms and possible neurotherapeutic effects of induced ketosis

[98] Microglia heterogeneity and neurodegeneration: The emerging paradigm of the role of immunity in Alzheimer's disease

[99] Protocatechuic acid inhibits inflammatory responses in LPS-activated BV2 microglia via regulating SIRT1/NF-κB pathway contributed to the suppression of microglial activation-induced PC12 cell apoptosis

[100] Plaque-associated myeloid cells derive from resident microglia in an Alzheimer's disease model

[101] Excess salt intake promotes M1 microglia polarization via a p38/MAPK/AR-dependent pathway after cerebral ischemia in mice