2024
A kidney-hypothalamus axis promotes compensatory glucose production in response to glycosuria
Faniyan T, Zhang X, Morgan D, Robles J, Bathina S, Brookes P, Rahmouni K, Perry R, Chhabra K. A kidney-hypothalamus axis promotes compensatory glucose production in response to glycosuria. ELife 2024, 12 DOI: 10.7554/elife.91540.4.Peer-Reviewed Original ResearchGlucose productionEndogenous glucose productionReabsorption of nutrientsLoss of glucoseHypothalamic-pituitary-adrenal axisNormal energy supplyProteomic analysisCompensatory increaseAfferent renal nervesAfferent renal denervationPlasma proteomic analysisDefense mechanismsAcute phase proteinsRenal denervationKO miceSGLT2 inhibitorsKnockout miceRenal nervesAfferent nervesEfficiency of drugsBody's defense mechanismsGlycosuriaGlucosePhase proteinsTreat hyperglycemia
2023
Nav1.7 P610T mutation in two siblings with persistent ocular pain after corneal axon transection: impaired slow inactivation and hyperexcitable trigeminal neurons
Ghovanloo M, Effraim P, Yuan J, Schulman B, Jacobs D, Dib-Hajj S, Waxman S. Nav1.7 P610T mutation in two siblings with persistent ocular pain after corneal axon transection: impaired slow inactivation and hyperexcitable trigeminal neurons. Journal Of Neurophysiology 2023, 129: 609-618. PMID: 36722722, PMCID: PMC9988530, DOI: 10.1152/jn.00457.2022.Peer-Reviewed Original ResearchConceptsPersistent ocular painTrigeminal ganglion neuronsOcular painCorneal refractive surgeryGanglion neuronsRefractive surgeryAxonal injurySlow inactivationHuman pain modelTrigeminal afferent nervesTrigeminal ganglion axonsSmall subgroupPain-related disordersEffects of injurySodium channel Nav1.7Channel slow inactivationEye painPostoperative painMost patientsPain modelAfferent nervesPersistent painTrigeminal neuronsNav1.7 mutationAxon transection
2018
In search of a longitudinal animal model of evoked swallow function
Langerman J, Doukas SG, Hasegawa H, Goodrich J, Lerner M, Sasaki C. In search of a longitudinal animal model of evoked swallow function. Laryngoscope Investigative Otolaryngology 2018, 3: 191-197. PMID: 30062134, PMCID: PMC6057227, DOI: 10.1002/lio2.161.Peer-Reviewed Original ResearchKetamine-based anesthesiaSwallow functionVagus nerveAnimal modelsSingle stimulationMaintenance of anesthesiaMale Yorkshire pigsQuality of lifeAnesthetized porcine modelLongitudinal study designAfferent nervesAspiration eventsGeneral anesthesiaIntravenous anesthesiaSwallow reflexIntraoperative studyInhalational anesthesiaSwallow responseStimulus trainsAnesthesiaSwallow eventsPorcine modelClinical interventionsNerveStudy design
2013
TRPA1-Dependent Pruritus in IL-13–Induced Chronic Atopic Dermatitis
Oh MH, Oh SY, Lu J, Lou H, Myers AC, Zhu Z, Zheng T. TRPA1-Dependent Pruritus in IL-13–Induced Chronic Atopic Dermatitis. The Journal Of Immunology 2013, 191: 5371-5382. PMID: 24140646, PMCID: PMC4175413, DOI: 10.4049/jimmunol.1300300.Peer-Reviewed Original ResearchMeSH KeywordsAcetanilidesAnimalsCalcium ChannelsCells, CulturedChronic DiseaseCytokinesDermatitis, AtopicDisease Models, AnimalHumansInterleukin-13Mast CellsMiceMice, Inbred C57BLMice, TransgenicNerve FibersNerve Tissue ProteinsNeuropeptidesPruritusPurinesTh1-Th2 BalanceTransient Receptor Potential ChannelsTRPA1 Cation ChannelUp-RegulationConceptsTransient receptor potential ankyrin 1Chronic atopic dermatitisAtopic dermatitisMast cellsChronic itchTRPA1 expressionAfferent nervesIL-13Nerve fibersInhibition of TRPA1Histamine-independent itchSensory nerve fibersAfferent nerve fibersDorsal root gangliaNovel neural mechanismAD skinAD miceItch pathwaysLesional skinRoot gangliaInflammatory environmentHealthy subjectsSpecific antagonistMouse modelAnkyrin 1
2011
Peripheral opioid receptor agonists for analgesia: a comprehensive review.
Vadivelu N, Mitra S, Hines RL. Peripheral opioid receptor agonists for analgesia: a comprehensive review. Journal Of Opioid Management 2011, 7: 55-68. PMID: 21434585, DOI: 10.5055/jom.2011.0049.Peer-Reviewed Original ResearchConceptsPeripheral opioid receptorsOpioid receptor agonistsOpioid receptorsReceptor agonistOpioid analgesiaPeripheral opioid receptor agonistDelta-opioid receptor agonistPhase I clinical trialPeripheral opioid agonistPeripheral opioid analgesiaDorsal root gangliaObvious theoretical advantagesOpioid agonist activityPeripheral muAfferent nervesAfferent neuronsOpioid analgesicsPeripheral terminalsCentral actionOpioid agonistsAntidiarrheal drugsOpioidergic systemRoot gangliaClinical trialsPeripheral tissues
1993
The peptide FMRFa terminates a discharge in Aplysia bag cell neurons by modulating calcium, potassium, and chloride conductances
Fisher T, Lin C, Kaczmarek L. The peptide FMRFa terminates a discharge in Aplysia bag cell neurons by modulating calcium, potassium, and chloride conductances. Journal Of Neurophysiology 1993, 69: 2164-2173. PMID: 7688803, DOI: 10.1152/jn.1993.69.6.2164.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAplysiaCalcium ChannelsCells, CulturedChloride ChannelsElectric StimulationElectrophysiologyFMRFamideGangliaImmunohistochemistryIon ChannelsMembrane PotentialsMembrane ProteinsNeuritesNeuronsNeuropeptidesNeurotransmitter AgentsPotassium ChannelsStereotyped BehaviorTetradecanoylphorbol AcetateConceptsBag cell neuronsCell neuronsAction potentialsElectrical stimulationVoltage-activated calcium currentsOnset of afterdischargePowerful inhibitory influenceIntact abdominal gangliaIon substitution experimentsVoltage-clamp experimentsAfferent nervesProtein kinase C. 5Channel blockersCalcium currentPrimary cell culturesAbdominal ganglionInhibitory influenceAfterdischargesCyclic AMP analogueFMRFaOutward currentsNeuronal processesNeuronsAplysia bag cell neuronsReversal potential
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