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Cell Reports, ISSN 2211-1247, 09/2016, Volume 16, Issue 10, pp. 2576 - 2592
The mechanisms underlying Zika virus (ZIKV)-related microcephaly and other neurodevelopment defects remain poorly understood. Here, we describe the derivation... 
NEURAL PROGENITORS | LONG-TERM | HUMAN BRAIN | ADAPTER | CENTRAL-NERVOUS-SYSTEM | INFECTION | MICE | BINDING KINASE 1 | ORGANOIDS | INNATE IMMUNITY | CELL BIOLOGY | Neocortex - pathology | Neurons - pathology | Transcription, Genetic - drug effects | Brain - embryology | Neuroglia - ultrastructure | Neuroglia - pathology | Humans | Brain - virology | Centrosome - drug effects | Gene Expression Profiling | Microcephaly - virology | Neural Stem Cells - ultrastructure | Zika Virus Infection - virology | Neural Stem Cells - immunology | Neuroepithelial Cells - immunology | Neuroprotective Agents - pharmacology | Spinal Cord - pathology | Microcephaly - pathology | Neuroepithelial Cells - virology | Nucleosides - pharmacology | Fetus - virology | Cell Death - drug effects | Phosphorylation - drug effects | Neurons - drug effects | Protein-Serine-Threonine Kinases - metabolism | Zika Virus - pathogenicity | Proto-Oncogene Proteins - metabolism | Zika Virus - ultrastructure | Neurons - virology | Virus Replication - drug effects | Neuroepithelial Cells - ultrastructure | Immunity, Innate - drug effects | Zika Virus Infection - pathology | Neural Stem Cells - virology | Zika Virus - physiology | Zika Virus - drug effects | Mitochondria - metabolism | Mitochondria - drug effects | Receptor Protein-Tyrosine Kinases - metabolism | Neural Stem Cells - enzymology | Centrosome - metabolism | Mitosis - drug effects | Brain - pathology | Protein Kinase Inhibitors - pharmacology | Neuroglia - virology | Neuroepithelial Cells - drug effects | Neurons/pathology | Zika Virus/pathogenicity | Mitochondria/metabolism | Virus Replication/drug effects | Microcephaly/pathology | Neurons/drug effects | Protein-Serine-Threonine Kinases/metabolism | Neural Stem Cells/immunology | Neuroglia/ultrastructure | Neuroepithelial Cells/drug effects | Neuroepithelial Cells/virology | Life Sciences | Brain/pathology | Zika Virus/drug effects | Brain/embryology | Mitochondria/drug effects | Fetus/virology | Neocortex/pathology | Neuroglia/pathology | Cell Death/drug effects | Mitosis/drug effects | Transcription, Genetic/drug effects | Nucleosides/pharmacology | Neural Stem Cells/enzymology | Neural Stem Cells/ultrastructure | Neuroepithelial Cells/ultrastructure | Receptor Protein-Tyrosine Kinases/metabolism | Microcephaly/virology | Proto-Oncogene Proteins/metabolism | Neuroprotective Agents/pharmacology | Zika Virus/ultrastructure | Neuroepithelial Cells/immunology | Brain/virology | Immunity, Innate/drug effects | Spinal Cord/pathology | Zika Virus/physiology | Neuroglia/virology | Microbiology and Parasitology | Zika Virus Infection/pathology | Neurons/virology | Zika Virus Infection/virology | Neural Stem Cells/virology | Centrosome/drug effects | Protein Kinase Inhibitors/pharmacology | Centrosome/metabolism | Phosphorylation/drug effects
Journal Article
The Journal of Physiology, ISSN 0022-3751, 07/2011, Volume 589, Issue 14, pp. 3641 - 3658
Non‐technical summary  Shivering is an involuntary somatic motor response that occurs in skeletal muscles to produce heat during exposure to cold environments... 
PHYSIOLOGY | NONSHIVERING THERMOGENESIS | 5-HT1A RECEPTORS | SYMPATHETIC PREMOTOR NEURONS | SPINAL-CORD | DORSOMEDIAL HYPOTHALAMUS | BROWN ADIPOSE-TISSUE | EXPRESSING PREOPTIC NEURONS | BODY-TEMPERATURE | NEUROSCIENCES | PROSTAGLANDIN EP3 RECEPTOR | RAPHE PALLIDUS | Skin Temperature - physiology | Neural Pathways - drug effects | Efferent Pathways - physiology | Fever - metabolism | Male | Preoptic Area - metabolism | Neural Pathways - physiology | Fever - physiopathology | N-Methylaspartate - pharmacology | Neurons - metabolism | Medulla Oblongata - physiology | Preoptic Area - physiology | Dinoprostone - pharmacology | Body Temperature Regulation - physiology | Shivering - physiology | Rats | Mediodorsal Thalamic Nucleus - drug effects | Tachycardia - metabolism | Raphe Nuclei - drug effects | Raphe Nuclei - physiology | Neural Pathways - metabolism | Adipose Tissue, Brown - drug effects | Receptors, GABA-A - metabolism | Muscimol - pharmacology | Rats, Wistar | Preoptic Area - drug effects | Sympathetic Nervous System - drug effects | GABA-A Receptor Antagonists - metabolism | Sympathetic Nervous System - metabolism | Raphe Nuclei - metabolism | Thermogenesis - physiology | Heart Rate - drug effects | Mediodorsal Thalamic Nucleus - metabolism | Sympathetic Nervous System - physiology | Shivering - drug effects | Neurons - physiology | Heart Rate - physiology | Blood Pressure - drug effects | Blood Pressure - physiology | Tachycardia - pathology | Mediodorsal Thalamic Nucleus - physiology | Neurons - drug effects | Receptor, Serotonin, 5-HT1A - metabolism | Cold Temperature | Medulla Oblongata - drug effects | Medulla Oblongata - metabolism | Adipose Tissue, Brown - physiology | 8-Hydroxy-2-(di-n-propylamino)tetralin - pharmacology | Efferent Pathways - metabolism | Animals | Thermogenesis - drug effects | GABA | Heart beat | Neurons | Analysis | Prostaglandins E | Heart rate | Skin | Cooling | Thermogenesis | Cold | Rodents | Integrative
Journal Article
Molecular Psychiatry, ISSN 1359-4184, 05/2012, Volume 17, Issue 5, pp. 537 - 548
Synchronous recruitment of fast-spiking (FS) parvalbumin (PV) interneurons generates gamma oscillations, rhythms that emerge during performance of cognitive... 
NMDAR | oscillations | parvalbumin | gamma | optogenetics | interneurons | PSYCHIATRY | BIOCHEMISTRY & MOLECULAR BIOLOGY | SCHIZOPHRENIA | MODEL | SYNAPTIC PLASTICITY | NEUROSCIENCES | PREFRONTAL CORTEX | DENDRITIC SPINES | FREQUENCY OSCILLATIONS | SELECTIVE IMPAIRMENT | NEURONS | MICE | WORKING-MEMORY | Sensory Gating - drug effects | Interneurons - physiology | Receptors, N-Methyl-D-Aspartate - antagonists & inhibitors | Stereotyped Behavior - drug effects | Parvalbumins - metabolism | GABAergic Neurons - physiology | Male | Memory, Short-Term - physiology | Excitatory Postsynaptic Potentials - drug effects | Receptors, N-Methyl-D-Aspartate - genetics | Excitatory Postsynaptic Potentials - physiology | Brain Waves - drug effects | GABAergic Neurons - metabolism | Stereotyped Behavior - physiology | Brain Waves - physiology | Maze Learning - physiology | Conditioning (Psychology) - drug effects | Conditioning (Psychology) - physiology | Interneurons - drug effects | Memory, Short-Term - drug effects | Mice, Transgenic | Sensory Gating - physiology | Maze Learning - drug effects | Receptors, N-Methyl-D-Aspartate - physiology | Association Learning - physiology | Association Learning - drug effects | GABA Antagonists - pharmacology | Animals | Photic Stimulation - methods | Picrotoxin - pharmacology | Mice | Methyl aspartate | Interneurons | Neural networks | Albumin | Physiological aspects | Research | Health aspects | Glutamic acid receptors (ionotropic) | Cognitive ability | Oscillations | Associative learning | N-Methyl-D-aspartic acid receptors | Optics | Antagonists | Glutamic acid receptors | Rhythms | Parvalbumin | Habituation | Information processing | Genetics | Short term memory | Stereotyped behavior | Neurotransmission | Original
Journal Article
Journal of Vascular Research, ISSN 1018-1172, 02/2013, Volume 50, Issue 2, pp. 89 - 99
Aldosterone exerts direct effects on the vascular system by inducing oxidative stress, inflammation, hypertrophic remodeling, fibrosis, and endothelial... 
Review | Oxidative stress | Genomic and nongenomic effects | Vasoconstriction | Endothelial dysfunction | Inflammation | Remodeling | Arteries | Vascular stiffness | CELLS | PHYSIOLOGY | RHO-KINASE | BLOOD-PRESSURE | SYNTHASE INHIBITOR | INTRACELLULAR CA2 | HEART | INSULIN-RESISTANCE | SPIRONOLACTONE | PERIPHERAL VASCULAR DISEASE | ANGIOTENSIN-II RECEPTORS | Antihypertensive Agents - pharmacology | Oxidative Stress | Vasculitis - physiopathology | Blood Vessels - pathology | Cardiovascular Diseases - drug therapy | Humans | Endothelium, Vascular - drug effects | Hypertension - drug therapy | Sodium - metabolism | Adipocytes - physiology | Metabolic Syndrome - drug therapy | Endothelium, Vascular - physiology | Receptors, Mineralocorticoid - physiology | Receptors, Mineralocorticoid - drug effects | Vasoconstriction - physiology | Endothelin A Receptor Antagonists | Metabolic Syndrome - physiopathology | Mineralocorticoid Receptor Antagonists - pharmacology | Endothelin-1 - physiology | Mineralocorticoids - physiology | Muscle, Smooth, Vascular - physiology | Muscle, Smooth, Vascular - drug effects | Cardiovascular Diseases - physiopathology | Aldosterone - physiology | Gene Expression Regulation - physiology | Aldosterone - pharmacology | Renin-Angiotensin System - physiology | Antihypertensive Agents - therapeutic use | Vasoconstriction - drug effects | Hypertension - physiopathology | Mineralocorticoid Receptor Antagonists - therapeutic use | Gene Expression Regulation - drug effects | Animals | Signal Transduction - drug effects | Vasculitis - drug therapy | Blood Vessels - drug effects | Fibrosis | Renin-Angiotensin System - drug effects | Signal Transduction - physiology | Receptor, Endothelin A - physiology | Blood Vessels - physiology | Angiotensin II - physiology | Hypertrophy
Journal Article
Journal Article
2002, Conceptual advances in brain research, ISBN 9786610217717, Volume 6., 211
Ironically, the organ with the greatest reason to differ between the sexes, the brain, is often viewed as the most androgynous of all. Are there differences?... 
Women | Brain | psychology | Sex Factors | Sex differences (Psychology) | physiology | pharmacokinetics | Sex differences | Sex Characteristics | Hormones | Psychophysiology | Neuroscience | Neuropsychology | Brain-Sex differences
eBook
Cell Reports, ISSN 2211-1247, 03/2016, Volume 14, Issue 8, pp. 1930 - 1939
Dopamine release during reward-driven behaviors influences synaptic plasticity. However, dopamine innervation and release in the hippocampus and its role... 
passive avoidance | fear conditioning | memory | ventral tegmental area | inhibitory avoidance | LTP | in vivo recording | Memory | Passive avoidance | Inhibitory avoidance | In vivo recording | Ventral tegmental area | Fear conditioning | TRANSPORTER | MEMORY | PERSISTENCE | NEURONS | STIMULI | RECEPTOR | LONG-TERM POTENTIATION | REWARD | MODULATION | VENTRAL TEGMENTAL AREA | CELL BIOLOGY | CA1 Region, Hippocampal - cytology | Mesencephalon - cytology | Synaptic Transmission - physiology | CA1 Region, Hippocampal - drug effects | Electrodes | CA3 Region, Hippocampal - drug effects | Long-Term Potentiation - drug effects | Pyramidal Cells - physiology | Receptors, Dopamine D1 - agonists | Long-Term Potentiation - physiology | Mesencephalon - drug effects | Synaptic Transmission - drug effects | Pyramidal Cells - drug effects | Mesencephalon - physiology | Action Potentials - drug effects | Dopamine - metabolism | Microtomy | Pyramidal Cells - cytology | Synapses - drug effects | CA1 Region, Hippocampal - physiology | CA3 Region, Hippocampal - cytology | Conditioning (Psychology) - drug effects | Conditioning (Psychology) - physiology | Synapses - physiology | Tissue Culture Techniques | CA3 Region, Hippocampal - physiology | Mice, Inbred C57BL | Memory, Long-Term - drug effects | Synapses - ultrastructure | Avoidance Learning - physiology | Benzazepines - pharmacology | Memory, Long-Term - physiology | Action Potentials - physiology | Learning - physiology | Animals | Receptors, Dopamine D1 - physiology | Avoidance Learning - drug effects | Mice
Journal Article
Neuropsychopharmacology, ISSN 0893-133X, 01/2015, Volume 40, Issue 2, pp. 327 - 337
Journal Article
Glia, ISSN 0894-1491, 12/2006, Volume 54, Issue 8, pp. 840 - 849
We have investigated the phenotypic and bioassay characteristics of bone marrow mesenchymal stromal cells (MSCs) differentiated along a Schwann cell lineage... 
differentiation | glial growth factor | mesenchymal stem cells | neuronal co‐culture | Schwann cells | Glial growth factor | Neuronal co-culture | Differentiation | Mesenchymal stem cells | PROGENITOR CELLS | MOUSE-BRAIN | PERIPHERAL-NERVE REGENERATION | ADULT SENSORY NEURONS | NEURAL STEM | SPINAL-CORD | NEUROSCIENCES | NESTIN | IN-VITRO | HUMAN BONE-MARROW | neuronal co-culture | MARROW STROMAL CELLS | Neurites - physiology | Coculture Techniques | Alkaline Phosphatase - metabolism | Rats, Inbred Lew | Cell Communication - physiology | Glial Fibrillary Acidic Protein - metabolism | Cell Lineage - drug effects | Schwann Cells - cytology | Mesenchymal Stromal Cells - cytology | Neurites - ultrastructure | Glial Cell Line-Derived Neurotrophic Factor - pharmacology | Up-Regulation - physiology | Stromal Cells - drug effects | Bone Marrow Cells - drug effects | Cell Differentiation - physiology | Receptor, Nerve Growth Factor - metabolism | Animals, Newborn | Biomarkers - metabolism | Mesenchymal Stromal Cells - drug effects | Bone Marrow Cells - cytology | Stromal Cells - metabolism | Cells, Cultured | Mesenchymal Stromal Cells - metabolism | Rats | S100 Proteins - metabolism | Schwann Cells - metabolism | Cell Lineage - physiology | Cell Shape - drug effects | Up-Regulation - drug effects | Phenotype | Animals | Cell Differentiation - drug effects | Cell Shape - physiology | Bone Marrow Cells - metabolism | Stromal Cells - cytology | Cell Lineage/drug effects/physiology | Schwann Cells/cytology/metabolism | Cells; Cultured | S100 Proteins/metabolism | Cell Differentiation/drug effects/physiology | Neurites/physiology/ultrastructure | Cell Shape/drug effects/physiology | Animals; Newborn | Biological Markers/metabolism | Stromal Cells/cytology/drug effects/metabolism | Up-Regulation/drug effects/physiology | Cell Communication/physiology | Glial Fibrillary Acidic Protein/metabolism | Mesenchymal Stem Cells/cytology/drug effects/metabolism | Receptor; Nerve Growth Factor/metabolism | Glial Cell Line-Derived Neurotrophic Factor/pharmacology | Bone Marrow Cells/cytology/drug effects/metabolism | Alkaline Phosphatase/metabolism | Rats; Inbred Lew
Journal Article