Search results for "TRPC Cation Channels"

showing 8 items of 8 documents

Acid sphingomyelinase – a regulator of canonical transient receptor potential channel 6 (TRPC6) activity

2019

Recent investigations propose the acid sphingomyelinase (ASM)/ceramide system as a novel target for antidepressant action. ASM catalyzes the breakdown of the abundant membrane lipid sphingomyelin to the lipid messenger ceramide. This ASM‐induced lipid modification induces a local shift in membrane properties, which influences receptor clustering and downstream signaling. Canonical transient receptor potential channels 6 (TRPC6) are non‐selective cation channels located in the cell membrane that play an important role in dendritic growth, synaptic plasticity and cognition in the brain. They can be activated by hyperforin, an ingredient of the herbal remedy St. John’s wort for treatment of de…

0301 basic medicineCeramideMedizinCeramidesPC12 CellsBiochemistryFIASMATRPC603 medical and health sciencesCellular and Molecular NeuroscienceTransient receptor potential channelchemistry.chemical_compound0302 clinical medicineddc:570medicineAnimalsInstitut für Biochemie und BiologieIon channelTRPC Cation ChannelsNeuronsRatsCell biologySphingomyelin Phosphodiesterase030104 developmental biologychemistryLipid modificationAcid sphingomyelinaseSphingomyelin030217 neurology & neurosurgerymedicine.drugJournal of Neurochemistry
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DHA induces Jurkat T-cell arrest in G2/M phase of cell cycle and modulates the plasma membrane expression of TRPC3/6 channels.

2021

Abstract We investigated whether docosahexaenoic acid (DHA), a dietary n-3 fatty acid, modulates calcium (Ca2+) signaling and cell cycle progression in human Jurkat T-cells. Our study demonstrates that DHA inhibited Jurkat T-cell cycle progression by blocking their passage from S phase to G2/M phase. In addition, DHA decreased the plasma membrane expression of TRPC3 and TRPC6 calcium channels during T-cell proliferation. Interestingly, this fatty acid increased plasma membrane expression of TRPC6 after 24 h of mitogenic stimulation by phorbol-13-myristate-12-acetate (PMA) and ionomycin. These variations in the membrane expression of TRPC3 and TRPC6 channels were not directly correlated with…

0301 basic medicineDocosahexaenoic AcidsT-Lymphocyteschemistry.chemical_elementCalciumBiochemistryJurkat cellsCalcium in biology03 medical and health scienceschemistry.chemical_compoundJurkat CellsTRPC3TRPC6 Cation ChannelHumansTRPC Cation Channels030102 biochemistry & molecular biologyVoltage-dependent calcium channelIonomycinCell MembraneGeneral MedicineCell cycleCell biologyG2 Phase Cell Cycle Checkpoints030104 developmental biologychemistryGene Expression RegulationDocosahexaenoic acidIonomycinM Phase Cell Cycle CheckpointsTetradecanoylphorbol AcetateBiochimie
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Implication of TRPC3 channel in gustatory perception of dietary lipids

2020

Aim The pathogenesis of obesity has been associated with high intake of dietary fat, and some recent studies have explored the cellular mechanisms of oro-sensory detection of dietary fatty acids. We further assessed the role of transient receptor potential canonical (TRPC) channels in oro-sensory perception of dietary lipids. Methods We determined by RT-qPCR and western blotting the expression of TRPC3/6/7 channels in mouse fungiform taste bud cells (mTBC). Immunocytochemistry was used to explore whether TRPC3 channels were co-expressed with fatty acid receptors. We employed wild-type (WT) mTBC, and those transfected with small interfering RNAs (siRNAs) against TRPC3 or STIM1. Ca2+ signalli…

0301 basic medicinemedicine.medical_specialtyTastePhysiologyCD36030204 cardiovascular system & hematologyTRPC6Food PreferencesMice03 medical and health sciencesTransient receptor potential channel0302 clinical medicineTRPC3Internal medicineTaste budmedicineAnimalsTRPCTRPC Cation Channelschemistry.chemical_classificationbiologyChemistryTaste PerceptionFatty acidDietary FatsLipids030104 developmental biologyEndocrinologymedicine.anatomical_structurebiology.proteinActa Physiologica
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Activation of TRPC6 calcium channels by diacylglycerol (DAG)-containing arachidonic acid: A comparative study with DAG-containing docosahexaenoic acid

2006

We synthesized a diacylglycerol (DAG)-containing arachidonic acid, i.e., 1-stearoyl-2-arachidonyl-sn-glycerol (SAG), and studied its implication in the modulation of canonical transient receptor potential sub-type 6 (TRPC6) channels in stably-transfected HEK-293 cells. SAG induced the influx of Ca(2+), and also of other bivalent cations like Ba(2+) and Sr(2+), in these cells. SAG-evoked Ca(2+) influx was not due to its metabolites as inhibitors of DAG-lipase (RHC80267) and DAG-kinase (R50922) failed to inhibit the response of the same. To emphasise that SAG exerts its action via its DAG configuration, but not due to the presence of stearic acid at sn-1 position, we synthesized 1-palmitoyl-2…

Docosahexaenoic AcidsBiologyBiochemistryTRPC6DiglyceridesMicechemistry.chemical_compoundTransient receptor potential channelMembrane Microdomainsparasitic diseasesTRPC6 Cation ChannelAnimalsCells CulturedTRPC Cation ChannelsDiacylglycerol kinaseDose-Response Relationship DrugVoltage-dependent calcium channelGeneral MedicineRhc80267src-Family KinaseschemistryBiochemistrySU6656BiophysicsCalciumlipids (amino acids peptides and proteins)Arachidonic acidProto-oncogene tyrosine-protein kinase SrcBiochimie
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TRPC1 is regulated by caveolin-1 and is involved in oxidized LDL-induced apoptosis of vascular smooth muscle cells.

2009

International audience; Oxidized low-density lipoprotein (oxLDL) induced-apoptosis of vascular cells may participate in plaque instability and rupture. We have previously shown that vascular smooth muscle cells (VSMC) stably expressing caveolin-1 were more susceptible to oxLDL-induced apoptosis than VSMC expressing lower level of caveolin-1, and this was correlated with enhanced Ca(2+) entry and pro-apoptotic events. In this study, we aimed to identify the molecular events involved in oxLDL-induced Ca(2+) influx and their regulation by the structural protein caveolin-1. In VSMC, transient receptor potential canonical-1 (TRPC1) silencing by ARN interference prevents the Ca(2+) influx and red…

MESH: Lipoproteins LDLVascular smooth muscleOxysterolCaveolin 1ApoptosisBiologyMESH: Base SequenceMESH : RNA Small InterferingMuscle Smooth VascularTRPC1Transient receptor potential channelMESH: RNA Small InterferingMESH : Cells CulturedHumansMESH: Caveolin 1RNA Small InterferingMESH: TRPC Cation ChannelsCells CulturedTRPC Cation ChannelsMESH: HumansBase SequenceMESH : Gene Expression RegulationMESH: ApoptosisMESH : HumansMESH : TRPC Cation ChannelsMESH : Muscle Smooth VascularArticlesCell BiologyMESH: Muscle Smooth VascularActin cytoskeletonMESH: Gene Expression RegulationCell biologyLipoproteins LDLGene Expression RegulationApoptosisCaveolin 1MESH : Caveolin 1Molecular Medicinelipids (amino acids peptides and proteins)MESH : Base SequenceMESH : Lipoproteins LDLHomeostasisMESH : ApoptosisMESH: Cells Cultured
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Transient Receptor Potential Canonical 3 (TRPC3) Channels Are Required for Hypothalamic Glucose Detection and Energy Homeostasis

2017

Fil: Chrétien, Chloé. University of Bourgogne Franche-Comté. Institut National de la Recherche Agronomique. Centre des Sciences du Goût et de l’Alimentation; France Fil: Fenech, Claire. University of Bourgogne Franche-Comté. Institut National de la Recherche Agronomique. Centre des Sciences du Goût et de l’Alimentation; France Fil: Liénard, Fabienne. University of Bourgogne Franche-Comté. Institut National de la Recherche Agronomique. Centre des Sciences du Goût et de l’Alimentation; France Fil: Grall, Sylvie. University of Bourgogne Franche-Comté. Institut National de la Recherche Agronomique. Centre des Sciences du Goût et de l’Alimentation; France Fil: Chevalier, Charlène. University of …

Male0301 basic medicine[ SDV.AEN ] Life Sciences [q-bio]/Food and NutritionEndocrinology Diabetes and Metabolismmedicine.medical_treatmentsourisTRPC3proopiomelanocortin neuronsEnergy homeostasisRats Sprague-DawleyEatingMiceTransient receptor potential channelneuropeptide-yTRPC3synaptic-transmissionneuroneInsulin SecretionHomeostasisInsulinarcuate nucleusNeurons2. Zero hungerneuropeptide ydiabetesion channelsnoyau arquémuscle squelettiqueFastingfood-intakeprise alimentaire16. Peace & justiceNeuropeptide Y receptorcation channelsproopiomelanocortine3. Good healthMedicina BásicaAlimentation et NutritionEndocrinologie et métabolismemedicine.medical_specialtyCIENCIAS MÉDICAS Y DE LA SALUDBlotting Westernarcuate nucleus;food-intake;synaptic-transmission;endothelial-cell;skeletal-muscle;cation channel;neuropeptide-y;ion channel;mouse;proopiomelanocortin neuronHypothalamusInmunologíaMédecine humaine et pathologieBiologyNeurotransmissionReal-Time Polymerase Chain ReactionHOMEOSTASIS ENERGETICA03 medical and health sciencesCalcium imagingInternal medicineInternal MedicinemedicineFood and NutritionAnimalsskeletal-musclecanal ioniquemouseTRPC Cation ChannelsEndocrinology and metabolismInsulinBody Weighttransmission synaptiqueGlucose Tolerance TestRatsMice Inbred C57BLGlucose030104 developmental biologyEndocrinologyendothelial-cellsGLUCOSA HIPOTALAMICAHypothalamic glucose sensingAnorecticHuman health and pathologyCANALES IONICOSEnergy Metabolismcellule endotheliale[SDV.AEN]Life Sciences [q-bio]/Food and Nutrition
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Switching between persistent firing and depolarization block in individual rat CA1 pyramidal neurons

2018

The hippocampal formation plays a role in mnemonic tasks and epileptic discharges in vivo. In vitro, these functions and malfunctions may relate to persistent firing (PF) and depolarization block (DB), respectively. Pyramidal neurons of the CA1 field have previously been reported to engage in either PF or DB during cholinergic stimulation. However, it is unknown whether these cells constitute disparate populations of neurons. Furthermore, it is unclear which cell-specific peculiarities may mediate their diverse response properties. However, it has not been shown whether individual CA1 pyramidal neurons can switch between PF and DB states. Here, we used whole cell patch clamp in the current …

MalePotassium ChannelsPatch-Clamp Techniquesantagonists & inhibitors [TRPC Cation Channels]physiology [Electrophysiological Phenomena]Cognitive Neurosciencepharmacology [Muscarinic Agonists]metabolism [TRPC Cation Channels]drug effects [Pyramidal Cells]HippocampusStimulationMuscarinic AgonistsIn Vitro TechniquesHippocampal formation050105 experimental psychologyMembrane Potentialspharmacology [Carbachol]03 medical and health sciences0302 clinical medicineCurrent clampAnimalsRats Long-Evans0501 psychology and cognitive sciencesddc:610Patch clampCA1 Region HippocampalTRPC Cation Channelsphysiology [CA1 Region Hippocampal]Dose-Response Relationship Drugphysiology [Pyramidal Cells]ChemistryPyramidal Cells05 social sciencescytology [CA1 Region Hippocampal]drug effects [Membrane Potentials]Depolarizationmetabolism [Potassium Channels]drug effects [Electrophysiological Phenomena]Potassium channelElectrophysiological PhenomenaRatsdrug effects [CA1 Region Hippocampal]CholinergicCarbacholFemaleNeuroscience030217 neurology & neurosurgeryHippocampus
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Diacylglycerol-containing oleic acid induces increases in [Ca(2+)](i) via TRPC3/6 channels in human T-cells.

2011

Though most of the studies have focused on the effects of free fatty acids on T-cell activation, fatty acids incorporated into plasma membrane phospholipids may also affect cell signaling via diacylglycerol (DAG), generally produced by phospholipid hydrolysis. In the present study, we have synthesized a DAG-containing oleic acid and studied its implication in the modulation of calcium signaling in human Jurkat T-cells. 1-palmitoyl-2-oleoyl-sn-glycerol (POG) induced a dose-dependent increase in [Ca(2+)](i). This effect was due to the presence of oleic acid at the sn-2 position as no differences were observed between POG and 1-stearoly-2-oleoyl-sn-glycerol (SOG). However, the substitution of …

T-LymphocytesPhospholipidGene ExpressionBiologyCaveolaeDiglycerideschemistry.chemical_compoundJurkat CellsTRPC3Membrane MicrodomainsTRPC6 Cation ChannelHumansCalcium SignalingMolecular BiologyLipid raftCalcium signalingDiacylglycerol kinaseTRPC Cation ChannelsIon TransportVoltage-dependent calcium channelDose-Response Relationship DrugReverse Transcriptase Polymerase Chain Reactionbeta-CyclodextrinsCell BiologyOleic acidchemistryBiochemistryMicroscopy Fluorescencelipids (amino acids peptides and proteins)Arachidonic acidCalciumRNA InterferenceBiochimica et biophysica acta
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