about
alpha-Actinin-dependent cytoskeletal anchorage is important for ICAM-5-mediated neuritic outgrowthCrystal structures of an ICAM-5 ectodomain fragment show electrostatic-based homophilic adhesionsICAM-5 affects spine maturation by regulation of NMDA receptor binding to α-actinin.Leukocyte adhesion--a fundamental process in leukocyte physiology.Leukocyte adhesion--an integrated molecular process at the leukocyte plasma membrane.Mixed housing with DBA/2 mice induces stress in C57BL/6 mice: implications for interventions based on social enrichment.Association of brain immune genes with social behavior of inbred mouse strains.Interactions between ICAM-5 and β1 integrins regulate neuronal synapse formationICAM-5--a novel two-facetted adhesion molecule in the mammalian brain.Neuronal regulation of immune responses in the central nervous system.Subcellular localization of intercellular adhesion molecule-5 (telencephalin) in the visual cortex is not developmentally regulated in the absence of matrix metalloproteinase-9.Animal inflammation-based models of depression and their application to drug discovery.Interactions between intercellular adhesion molecule-5 positive elements and their surroundings in the rodent visual cortex.Psychosocial stress on neuroinflammation and cognitive dysfunctions in Alzheimer's disease: the emerging role for microglia?AMIGO2 modulates T cell functions and its deficiency in mice ameliorates experimental autoimmune encephalomyelitis.Brain inflammation is accompanied by peripheral inflammation in Cstb (-/-) mice, a model for progressive myoclonus epilepsy.Reduced serum TNF alpha level in chronic schizophrenia patients with or without tardive dyskinesia.HMGB4 is expressed by neuronal cells and affects the expression of genes involved in neural differentiationSpinal versus brain microglial and macrophage activation traits determine the differential neuroinflammatory responses and analgesic effect of minocycline in chronic neuropathic pain.Activation of NMDA receptors promotes dendritic spine development through MMP-mediated ICAM-5 cleavage.Contribution of IL-10 and its -592 A/C polymorphism to cognitive functions in first-episode drug-naive schizophrenia.Microglia under psychosocial stressors along the aging trajectory: Consequences on neuronal circuits, behavior, and brain diseases.Cognitive dysfunction correlates with elevated serum S100B concentration in drug-free acutely relapsed patients with schizophrenia.Microglia are polarized to M1 type in high-anxiety inbred mice in response to lipopolysaccharide challenge.Increased IL-3 serum levels in chronic patients with schizophrenia: Associated with psychopathology.Importance of the immune system in mediating plasticity of the brain and behavior.Differential expression of brain immune genes and schizophrenia-related behavior in C57BL/6N and DBA/2J female mice.Abnormal microglial activation in the Cstb(-/-) mouse, a model for progressive myoclonus epilepsy, EPM1.Association of catechol-O-methyltransferase Val(108/158) Met genetic polymorphism with schizophrenia, P50 sensory gating, and negative symptoms in a Chinese population.Differential spinal and supraspinal activation of glia in a rat model of morphine tolerance.Shedded neuronal ICAM-5 suppresses T-cell activation.Effect of risperidone on serum homocysteine levels in first-episode, drug-naïve patients with schizophrenia.Collaborative ISL1/GATA3 interaction in controlling neuroblastoma oncogenic pathways overlapping with but distinct from MYCNIntroduction and validation of a new semi-automated method to determine sympathetic fiber density in target tissues.Decreased serum TNF-alpha levels in chronic schizophrenia patients on long-term antipsychotics: correlation with psychopathology and cognitionMicroglial regional heterogeneity and its role in the brainDifferences of Microglia in the Brain and the Spinal CordAnimal models of major depressive disorder and the implications for drug discovery and developmentPlasma total antioxidant status and cognitive impairments in first-episode drug-naïve patients with schizophreniaMore dampened monocytic Toll-like receptor 4 response to lipopolysaccharide and its association with cognitive function in Chinese Han first-episode patients with schizophrenia
P50
Q24296100-4BBF6D49-8698-4BDB-B627-909BF08C7727Q27684598-6FAF86E5-FD0C-42D2-9F5B-31C08E74DF8FQ30629597-E7DEC010-6B06-4F71-AA1B-791239348DD4Q33690801-FA9491BC-9972-4B4C-B977-D2969DCABE9FQ33789635-39D05F6C-A9BF-4E30-81BA-4649B9068BCAQ34010254-C19529A3-0F88-40AE-9A3A-3EA2C5F0EEC5Q35499613-F1E2B02C-D69C-45D9-B5E0-129303D16E23Q36702553-6B60EDB4-37DB-4A36-8332-81E2F8201A7CQ37119463-920BB765-E805-4E25-99A4-CFF8F19F65D2Q37368651-6F5BFB56-0BF7-4D81-8812-3CF0FACC4CFCQ37423393-50C5D7F1-507C-4C52-B61F-CAE94ABFC4E2Q38620528-F3CFE9ED-DDE8-4129-8707-7C6274FAEA8CQ38717527-E0C960AE-3C77-4B34-AB4E-6CF3CFE6A2FCQ38758993-C905A5B2-84A9-420C-809B-5B31F35CA90DQ39001378-350A67BF-A882-4092-9AC2-9EEAF7F17681Q39148044-3A0230C6-AE9F-4F21-AE0B-096275FE55D4Q39164637-749FD580-B65C-48FB-A5D5-B2C8C01F6852Q39409473-A110AB97-4E49-4741-B303-76FCF1F9D493Q39709516-6256D2B3-6493-4FC4-BFE5-0AF65759A1C3Q39744835-9D865CA2-77E5-4B57-B873-A916782F0BE0Q39924987-252F6D98-80B0-493B-85A5-6651E386F3E4Q47825905-69E2A6AC-F64A-4C0A-9DE4-401BF787D1E2Q47874278-B483A62D-83E6-4BE7-A10F-6BF8067A5F59Q47913547-E28AA466-1DEF-47FC-8917-91A790053075Q48077491-A66B80F7-DDA5-4494-B29A-AF4A6B386F80Q48226732-0550ED4A-D324-4B26-8235-7AE19E874202Q48339216-7860EC4D-966D-48D4-A61F-424BBD213FA0Q48480933-7C90AC39-8AFA-4B76-9D6A-C64E3AA5D870Q48669327-25D52293-C4E7-4AA2-B9BD-DA2D8969EBA5Q50111373-7B23FE02-0078-4161-B352-2AE94992DAB9Q51967726-A8885CD9-3DE2-47DE-AE75-469D1F082E80Q53748463-ABAFA8E3-C7BE-4E68-8AEE-9204FBDA9EEFQ64238176-75A235AE-A313-40C2-A241-F7F8DB2EC734Q64990389-B20DEEDB-6152-49C3-84F8-6C5FEAF70F6EQ88140050-F4CDAF13-6E0B-4691-87E4-EB69320B3403Q91474285-E32C6A2F-0FE5-4F76-8FC0-C8CFC30ED39FQ91706825-A4B47884-EC09-4EFC-9F3F-60533CE99DE8Q91827157-5AC73139-7328-4A6B-9A4B-D3EAF75C7D73Q92241072-FF156FD5-6C2E-494E-B401-4C45A7EC4AF1Q93078232-55FCCDAD-7075-438D-970D-DE9739CF7E91
P50
description
researcher ORCID ID = 0000-0003-0222-7076
@en
name
Li Tian
@ast
Li Tian
@en
Li Tian
@nl
type
label
Li Tian
@ast
Li Tian
@en
Li Tian
@nl
prefLabel
Li Tian
@ast
Li Tian
@en
Li Tian
@nl
P106
P31
P496
0000-0003-0222-7076