2023
The Concise Guide to PHARMACOLOGY 2023/24: Ion channels
Alexander S, Mathie A, Peters J, Veale E, Striessnig J, Kelly E, Armstrong J, Faccenda E, Harding S, Davies J, Aldrich R, Attali B, Baggetta A, Becirovic E, Biel M, Bill R, Caceres A, Catterall W, Conner A, Davies P, De Clerq K, Delling M, Di Virgilio F, Falzoni S, Fenske S, Fortuny-Gomez A, Fountain S, George C, Goldstein S, Grimm C, Grissmer S, Ha K, Hammelmann V, Hanukoglu I, Hu M, Ijzerman A, Jabba S, Jarvis M, Jensen A, Jordt S, Kaczmarek L, Kellenberger S, Kennedy C, King B, Kitchen P, Liu Q, Lynch J, Meades J, Mehlfeld V, Nicke A, Offermanns S, Perez-Reyes E, Plant L, Rash L, Ren D, Salman M, Sieghart W, Sivilotti L, Smart T, Snutch T, Tian J, Trimmer J, Van den Eynde C, Vriens J, Wei A, Winn B, Wulff H, Xu H, Yang F, Fang W, Yue L, Zhang X, Zhu M. The Concise Guide to PHARMACOLOGY 2023/24: Ion channels. British Journal Of Pharmacology 2023, 180: s145-s222. PMID: 38123150, PMCID: PMC11339754, DOI: 10.1111/bph.16178.Peer-Reviewed Original ResearchConceptsBest available pharmacological toolsOpen access knowledgebase sourceOfficial IUPHAR classificationAvailable pharmacological toolsDrug targetsG protein-coupled receptorsIon channelsProtein-coupled receptorsNomenclature guidanceClinical pharmacologyMajor pharmacological targetCatalytic receptorsSelective pharmacologyNuclear hormone receptorsPharmacological targetsPharmacological toolsHormone receptorsPrevious GuidesReceptorsLandscape formatHuman drug targetsPharmacologyConcise guideBiennial publicationRelated targets
2010
Role of Metabolic Activation and the TRPA1 Receptor in the Sensory Irritation Response to Styrene and Naphthalene
Lanosa M, Willis D, Jordt S, Morris J. Role of Metabolic Activation and the TRPA1 Receptor in the Sensory Irritation Response to Styrene and Naphthalene. Toxicological Sciences 2010, 115: 589-595. PMID: 20176620, PMCID: PMC2948824, DOI: 10.1093/toxsci/kfq057.Peer-Reviewed Original ResearchConceptsSensory irritation responseIrritation responseTransient receptor potential ankyrin 1 receptorMetabolic activationFemale C57BL/6J miceCytochrome P450 activationTRPA1 receptorsC57BL/6J miceCYP450 metabolitesPlethysmographic measurementsPpm styreneSensory irritationInhibitor metyraponeP450 activationPpm naphthaleneReceptorsMiceActivationCurrent studyCritical roleResponseMetyraponeIrritationRole
2003
Molecular determinants of ligand interaction with the capsaicin receptor
Jordt S, Julius D. Molecular determinants of ligand interaction with the capsaicin receptor. Journal Of Neurochemistry 2003, 85: 4-4. DOI: 10.1046/j.1471-4159.85.s2.4_3.x.Peer-Reviewed Original ResearchReceptor homologPutative transmembrane regionsTransmembrane regionChemical modification studiesChimeric analysisPlasma membraneReceptor orthologsTransmembrane moietyStructural domainsMolecular determinantsChemical labelingIntracellular sideLigand binding assaysStructural determinantsLigand interactionsHomologPain-producing effectsBinding assaysModification studiesEndogenous ligandCapsaicin receptorReceptorsOrthologsMutagenesisBirds
2002
Molecular Basis for Species-Specific Sensitivity to “Hot” Chili Peppers
Jordt SE, Julius D. Molecular Basis for Species-Specific Sensitivity to “Hot” Chili Peppers. Cell 2002, 108: 421-430. PMID: 11853675, DOI: 10.1016/s0092-8674(02)00637-2.Peer-Reviewed Original ResearchConceptsMolecular basisSpecies-specific behavioural responsesSpecies-specific sensitivitySeed dispersalMammalian counterpartsChili pepperChicken receptorPredatory mammalsRat vanilloid receptorEcological phenomenaMammalsPain-producing effectsBirdsVanilloid receptorsRecent acquisitionPepperCompound capsaicinReceptorsDispersalBehavioral responsesDomainChickensBasis