Environmental and pharmacological modulations of cellular plasticity: role in the pathophysiology and treatment of depression
about
MicroRNAs: Key Regulators in the Central Nervous System and Their Implication in Neurological DiseasesCan physical exercise in old age improve memory and hippocampal function?Beyond Monoamines-Novel Targets for Treatment-Resistant Depression: A Comprehensive ReviewAll about running: synaptic plasticity, growth factors and adult hippocampal neurogenesisEnvironmental enrichment and brain repair: harnessing the therapeutic effects of cognitive stimulation and physical activity to enhance experience-dependent plasticityExercise-induced stress resistance is independent of exercise controllability and the medial prefrontal cortex.5-HT2C receptors in the basolateral amygdala and dorsal striatum are a novel target for the anxiolytic and antidepressant effects of exerciseBiological mechanisms underlying the role of physical fitness in health and resilience.Trophic Mechanisms for Exercise-Induced Stress Resilience: Potential Role of Interactions between BDNF and GalaninHippocampal morphology in a rat model of depression: the effects of physical activity.The guanine nucleotide exchange factor (GEF) Asef2 promotes dendritic spine formation via Rac activation and spinophilin-dependent targeting.Diene Valepotriates from Valeriana glechomifolia Prevent Lipopolysaccharide-Induced Sickness and Depressive-Like Behavior in Mice.Pathogenetic and therapeutic applications of microRNAs in major depressive disorderAntidepressant and anticonvulsant effects of exercise in a rat model of epilepsy and depression comorbidity.Circulating Plasma Micro RNAs in Patients with Major Depressive Disorder Treated with Antidepressants: A Pilot StudyEmerging role of microRNAs in major depressive disorder: diagnosis and therapeutic implications.Nutritional strategies for dealing with depression.Circulating microRNAs as a Novel Class of Potential Diagnostic Biomarkers in Neuropsychiatric Disorders.Integrating neuroimmune systems in the neurobiology of depression.Sonic Hedgehog Signaling and Hippocampal Neuroplasticity.Nrf2-dependent persistent oxidative stress results in stress-induced vulnerability to depression.Neurotrophic paths in the treatment of depression.Neuroprotective Effects of Exercise Treatments After Injury: The Dual Role of Neurotrophic Factors.Regulation of glutamate transporter 1 via BDNF-TrkB signaling plays a role in the anti-apoptotic and antidepressant effects of ketamine in chronic unpredictable stress model of depression.Low left amygdala volume is associated with a longer duration of unipolar depression.Therapeutic Potential of Conjugated siRNAs for the Treatment of Major Depressive Disorder.Pathophysiology of affective disorders: functional interaction of stress hormones and hippocampal excitation.Antidepressants activate survival-promoting pathways in hippocampal neurons despite nutrient deprivation stress (commentary on Yang et al.).MicroRNAs in depression and suicide: Recent insights and future perspectivesNeurotrophic factors and neuroplasticity pathways in the pathophysiology and treatment of depressionSerum-based microRNA biomarkers for major depression: MiR-16, miR-135a, and miR-1202
P2860
Q26744819-FBB0E823-1246-44C1-BC75-396896321E54Q26766517-92FD215A-6865-40EE-AF1A-ECB28FB360BBQ26782993-F981167D-678D-49AB-B0D7-F4B9A854DB35Q27011760-CB92C3F6-FB82-47A8-BE18-044D8B9FD652Q28304384-0A68DAD2-E2B7-4E28-90D0-CD141F3AAA45Q30421266-0C5FAC34-268B-49AB-9B60-00A52F2B00FDQ30462731-DAEC645A-7ACD-4676-A693-6ADA8E0D64CEQ34079375-7ECFEDDE-CC70-4946-98C1-2C264D8CEE1BQ34433485-418DFC66-A590-4EE8-9831-41095A6B0352Q35056206-761B11C7-E30D-4D6F-9ABA-BA0883EF1DA2Q35451156-1A99F84C-9726-43DA-9E21-C07B1D33921CQ35779774-1D3EDC4E-996C-430D-9322-378BBB3F3E0DQ35956471-9F1471AC-B420-4ED1-BF98-7CF40C12AE59Q37199537-19CCA00A-3B80-4C91-B0CD-0775776935AAQ37345035-78667570-7BF2-4D2D-8DA8-081CFEC4F425Q37699995-DF019449-8DAA-4D64-AE2D-1FAB197A7273Q38155089-FF9851EA-C4C8-4687-9650-F446563C518BQ38834809-58AE5020-A538-4973-A7D3-7833056DC8D3Q38859380-CB7F32D1-E568-4D4F-89B4-E6FE33FEB327Q39014239-80BC413B-D9E7-4932-99C0-D0E854A8EF39Q39373286-E477A7B1-B4FB-4123-B4B3-E0BD8A27FB1DQ42575451-80425886-0FA0-47B5-8A10-348A4C7DE65FQ42711976-03051DEA-49A1-4624-8C3D-C656BB3C35FFQ47633542-F02EDB98-8C98-4E5F-ACFE-BC11E5B5D1D8Q47701936-1925B9A0-292F-446A-B845-CBC4F77BB2FAQ47862908-A1D00D74-48E7-4B52-91AD-9ABBD1451406Q48055734-BBF4DBD6-5EDA-4B2E-8B08-82C9C5CDE593Q48390408-9241042A-416A-416A-AAFC-6CF58DF5ACF0Q57129924-8CE3F53C-D997-4684-8E17-689313D93C18Q57173547-F3542215-0A9E-4F9F-9FB9-80E06E1EA6E6Q58712292-BA49F624-E7E8-45F5-B270-CA07FFF789DF
P2860
Environmental and pharmacological modulations of cellular plasticity: role in the pathophysiology and treatment of depression
description
2012 nî lūn-bûn
@nan
2012年の論文
@ja
2012年学术文章
@wuu
2012年学术文章
@zh-cn
2012年学术文章
@zh-hans
2012年学术文章
@zh-my
2012年学术文章
@zh-sg
2012年學術文章
@yue
2012年學術文章
@zh
2012年學術文章
@zh-hant
name
Environmental and pharmacologi ...... gy and treatment of depression
@ast
Environmental and pharmacologi ...... gy and treatment of depression
@en
type
label
Environmental and pharmacologi ...... gy and treatment of depression
@ast
Environmental and pharmacologi ...... gy and treatment of depression
@en
prefLabel
Environmental and pharmacologi ...... gy and treatment of depression
@ast
Environmental and pharmacologi ...... gy and treatment of depression
@en
P2860
P1476
Environmental and pharmacologi ...... gy and treatment of depression
@en
P2093
Kristie T Ota
Ronald S Duman
P2860
P356
10.1016/J.NBD.2012.05.022
P577
2012-06-09T00:00:00Z