Search results for "GPR18"

showing 4 items of 4 documents

EBI2 Is Highly Expressed in Multiple Sclerosis Lesions and Promotes Early CNS Migration of Encephalitogenic CD4 T Cells

2017

Arrival of encephalitogenic T cells at inflammatory foci represents a critical step in development of experimental autoimmune encephalomyelitis (EAE), the animal model for multiple sclerosis. EBI2 and its ligand, 7{alpha},25-OHC, direct immune cell localization in secondary lymphoid organs. CH25H and CYP7B1 hydroxylate cholesterol to 7{alpha},25-OHC. During EAE, we found increased expression of CH25H by microglia and CYP7B1 by CNS-infiltrating immune cells elevating the ligand concentration in the CNS. Two critical pro-inflammatory cytokines, interleukin-23 (IL-23) and interleukin-1 beta (IL-1{beta}), maintained expression of EBI2 in differentiating Th17 cells. In line with this, EBI2 enhan…

0301 basic medicineCD4-Positive T-LymphocytesCentral Nervous SystemMaleGPR183Cancer ResearchEncephalomyelitis Autoimmune ExperimentalOxysterolCentral nervous systemInterleukin-1betaCytochrome P450 Family 7CH25HmicrogliaAutoimmunityBiologymedicine.disease_causemultiple sclerosisInterleukin-23General Biochemistry Genetics and Molecular BiologyAutoimmunityReceptors G-Protein-Coupled03 medical and health sciencesMiceImmune systemCell MovementmedicineAnimalsEBI2lcsh:QH301-705.5MicrogliaEAEMultiple sclerosisExperimental autoimmune encephalomyelitisGPR18325-OHCmedicine.diseaseMice Inbred C57BLDisease Models Animal030104 developmental biologymedicine.anatomical_structurelcsh:Biology (General)ImmunologySteroid HydroxylasesTh17 CellsFemaleTh17CNSoxysterolCell Reports
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EBI2 – Sensor for dihydroxycholesterol gradients in neuroinflammation

2018

Dihydroxycholesterols such as 7α,25-dihydroxysterols (7α,25-OHC) and 7α,27-OHC are generated from cholesterol by the enzymes CH25H, CYP7B1 and CYP27A1 in steady state but also in the context of inflammation. The G-protein coupled receptor (GPCR) Epstein-Barr virus-induced gene 2 (EBI2), also known as GPR183, senses these oxysterols and induces chemotactic migration of immune cells towards higher concentrations of these ligands. We recently showed that these ligands are upregulated in the CNS in experimental autoimmune encephalomyelitis (EAE), an animal model for multiple sclerosis and that EBI2 enhanced early infiltration of encephalitogenic T cells into the CNS. In this short-review we dis…

0301 basic medicineEncephalomyelitis Autoimmune ExperimentalMultiple SclerosisInflammationContext (language use)BiochemistryReceptors G-Protein-Coupled03 medical and health sciencesImmune systemmedicineAnimalsHumansReceptorNeuroinflammationInflammationImmunity CellularChemistryChemotaxisExperimental autoimmune encephalomyelitisGPR183ChemotaxisGeneral Medicinemedicine.diseaseHydroxycholesterolsCell biologyDisease Models Animal030104 developmental biologymedicine.symptomBiochimie
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EBI2 in splenic and local immune responses and in autoimmunity

2017

Abstract The seven transmembrane G protein-coupled receptor EBV-induced gene 2 (EBI2), also known as GPR183, is expressed in particular in immune cells. Activated by its endogenous ligands, which are a group of oxysterols, it functions as a chemo-attractant receptor, mediating cell migration. In coordination with other receptors, EBI2 plays important roles in controlling the migration of immune cells during the course of a T-dependent Ab response in the spleen. In recent years, it has become clear that EBI2 also has other roles to play in the immune system. Thus, EBI2 seems to be involved in innate immune responses, such as those mediated by TLR signaling, and it has been implicated in regi…

0301 basic medicineImmunologyAutoimmunitySpleenBiologymedicine.disease_causeReceptors G-Protein-CoupledAutoimmunity03 medical and health sciences0302 clinical medicineImmune systemmedicineAnimalsHumansImmunology and AllergyReceptorG protein-coupled receptorInnate immune systemGPR183Cell migrationCell Biologybiochemical phenomena metabolism and nutritionImmunity Innate030104 developmental biologymedicine.anatomical_structureImmunologybacteriaSpleen030217 neurology & neurosurgeryJournal of Leukocyte Biology
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Loss of striatal type 1 cannabinoid receptors is a key pathogenic factor in Huntington's disease.

2010

Endocannabinoids act as neuromodulatory and neuroprotective cues by engaging type 1 cannabinoid receptors. These receptors are highly abundant in the basal ganglia and play a pivotal role in the control of motor behaviour. An early downregulation of type 1 cannabinoid receptors has been documented in the basal ganglia of patients with Huntington's disease and animal models. However, the pathophysiological impact of this loss of receptors in Huntington's disease is as yet unknown. Here, we generated a double-mutant mouse model that expresses human mutant huntingtin exon 1 in a type 1 cannabinoid receptor-null background, and found that receptor deletion aggravates the symptoms, neuropatholog…

MaleHuntingtinCannabinoid receptorCell Survivalmedicine.medical_treatmentBlotting WesternMice TransgenicBiologyMotor ActivityGrowth Hormone-Releasing HormoneMiceReceptor Cannabinoid CB1medicineCannabinoid receptor type 2AnimalsDronabinolReceptorBrain-derived neurotrophic factorNeuronsAnalysis of VarianceReverse Transcriptase Polymerase Chain ReactionEndocannabinoid systemMagnetic Resonance ImagingCorpus StriatumHuntington DiseaseRotarod Performance TestGPR18Neurology (clinical)CannabinoidNeuroscienceBrain : a journal of neurology
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