grant

Exercised-induced modulation of insular cortex microcircuitry during alcohol abstinence

Organization VANDERBILT UNIVERSITYLocation Nashville, UNITED STATESPosted 1 Jun 2023Deadline 31 May 2026
NIHUS FederalResearch GrantFY20254-Aminobutanoic Acid4-Aminobutyric Acid4-amino-butanoic acidAbsolute ethanolAbstinenceActive Follow-upAcuteAffectiveAlcohol Chemical ClassAlcohol DrinkingAlcohol consumptionAlcoholsAminalonAminaloneAmygdalaAmygdaloid BodyAmygdaloid NucleusAmygdaloid structureAnimal ModelAnimal Models and Related StudiesAnxietyAutomobile DrivingBehaviorBehavioralBrainBrain Nervous SystemBrain regionCOVID crisisCOVID epidemicCOVID pandemicCOVID-19 crisisCOVID-19 epidemicCOVID-19 eraCOVID-19 global health crisisCOVID-19 global pandemicCOVID-19 health crisisCOVID-19 pandemicCOVID-19 periodCOVID-19 public health crisisCOVID-19 yearsCausalityCell BodyCell Communication and SignalingCell SignalingCellsCentral LobeChronicCommunicationConnector NeuronCyclic SomatostatinDataDoseETOHElectrophysiologyElectrophysiology (science)EncephalonEtOH drinkingEtOH useEthanolEthyl AlcoholEtiologyExerciseExercise TestExposure toFeelingFellowshipFiberGABAGeneticGrain AlcoholGrantGrowth Hormone Inhibiting FactorsGrowth Hormone-Inhibiting HormoneHealth protectionHumanIndividualInsulaInsula of ReilIntercalary NeuronIntercalated NeuronsInterneuronsInternuncial CellInternuncial NeuronInteroceptionIntracellular Communication and SignalingInvestigationInvestigatorsIsland of ReilLocomotor ActivityMapsMediatingMethodsMethylcarbinolMiceMice MammalsModern ManMotor ActivityMotor CortexMurineMusNeocortexNerve CellsNerve Transmitter SubstancesNerve UnitNeural CellNeurocyteNeuronsNeuropeptidesNeurophysiology / ElectrophysiologyNeurotransmittersPatternPersonsPhotometryPlayPropertyPublic HealthQuinineRabies mappingRabies trans synaptic tracingRabies virus mediated mappingRegulationRelapseReporterResearch PersonnelResearchersResistanceRodent ModelRoleRunningSARS-CoV-2 epidemicSARS-CoV-2 global health crisisSARS-CoV-2 global pandemicSARS-CoV-2 pandemicSARS-coronavirus-2 epidemicSARS-coronavirus-2 pandemicSRIHSRIH-14Self AdministeredSelf AdministrationSevere Acute Respiratory Syndrome CoV 2 epidemicSevere Acute Respiratory Syndrome CoV 2 pandemicSevere acute respiratory syndrome coronavirus 2 epidemicSevere acute respiratory syndrome coronavirus 2 pandemicSignal TransductionSignal Transduction SystemsSignalingSomatostatinSomatostatin-14Somatotropin Release Inhibiting FactorsSomatotropin Release-Inhibiting HormoneStressStructureStudy modelsSubstance Use DisorderSynapsesSynapticTechniquesTestingTransmissionUnited StatesWithdrawalabstaining from alcoholabstaining from ethanolabstinence from alcoholabstinence from ethanolactive followupalcohol abstinencealcohol behavioralcohol effectalcohol exposedalcohol exposurealcohol induced behavioralcohol ingestionalcohol intakealcohol product usealcohol related behavioralcohol sensitivityalcohol usealcohol use disorderalcohol-related deathalcoholic beverage consumptionalcoholic drink intakeamygdaloid nuclear complexbiological signal transductionbrain circuitrycareercausationcell cortexcoronavirus disease 2019 crisiscoronavirus disease 2019 epidemiccoronavirus disease 2019 global health crisiscoronavirus disease 2019 global pandemiccoronavirus disease 2019 health crisiscoronavirus disease 2019 pandemiccoronavirus disease 2019 public health crisiscoronavirus disease crisiscoronavirus disease epidemiccoronavirus disease pandemiccoronavirus disease-19 global pandemiccoronavirus disease-19 pandemicdisease causationdrinkingdrivingelectrophysiologicalethanol abstinenceethanol behaviorethanol consumptionethanol drinkingethanol effectethanol exposedethanol exposureethanol induced behaviorethanol ingestionethanol intakeethanol product useethanol related behaviorethanol sensitivityethanol useethanol use disorderexposed to alcoholexposed to ethanolexposure to alcoholexposure to ethanolfeedingfeelingsfollow upfollow-upfollowed upfollowupgamma-Aminobutyric Acidgrowth hormone release inhibiting factorhomotypical corteximprovedin vivoinsightisocortexmodel of animalnegative affectnegative affectivityneopalliumneuronaloptogeneticspreventprevent relapsepreventable deathpreventable mortalitypreventingrabies based mappingrabies based retrograde mappingrabies circuit tracingrabies mediated retrograde monosynaptic tracingrabies retrograde tracingrabies tracerrabies tracingrabies viral tracingrabies virus mediated circuit mappingrabies virus monosynaptic circuit tracingrabies virus monosynaptic tracingrabies virus neurotracerrabies virus retrograde tracingrabies virus tracingrecruitrelapse preventionresistantsensing datasensitivity to alcoholsensitivity to ethanolsensor datasevere acute respiratory syndrome coronavirus 2 global health crisissevere acute respiratory syndrome coronavirus 2 global pandemicskillssocial rolesubstance use and disordersynapsetooltracing with rabiestransmission processγ-Aminobutyric Acid
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Full Description

PROJECT SUMMARY
Alcohol consumption and related behaviors can account for the third-highest cause of preventable death in the
United States. The ongoing COVID-19 pandemic has altered how individuals consume alcohol, which creates
a need for new strategies to help and protect the health of individuals with alcohol use disorder (AUD). Studies
in animal models suggest that exercise can help improve negative affective behaviors associated with
abstinence from alcohol exposure. The insular cortex (IC) is a key component in brain circuitry, contributing to
synaptic changes in the extended amygdala during abstinence. We have demonstrated that the IC is critical for
expressing negative affective behaviors that emerge from forced alcohol abstinence in mice. The primary
motor cortex (MOp) regulates essential information between the IC and extended amygdala during affective
behaviors. Voluntary exercise, a behavior dependent on the MOp, causes rapid changes in IC activity in mice.
Mice exposed to chronic alcohol intake display negative affective and aversion-resistant behaviors following
forced abstinence which is mitigated by exposure to intermittent voluntary wheel running access. There is a
need to gain insight into the interconnection of the MOp-IC to determine how exercise modulates forced
abstinence-associated behavior following alcohol consumption. The inhibitory neurotransmitter GABA is
associated with negative affect in humans. GABAergic somatostatin interneurons (SST-INs) are rich in the
neocortex and have been critical in regulating negative affective behaviors in rodent models of substance use
disorders. Our data suggest that GABA in the IC plays an important role in stress responsiveness. My
preliminary data indicates that MOp neuronal projections innervate IC SST-INs. We need further investigation
of MOp-IC microcircuitry to understand how activity within it might be altered by chronic alcohol intake. This
information has led me to hypothesize that exercise can decrease negative affect and aversion
resistance during abstinence from alcohol via the MOp-insula microcircuit connectivity. Within this
fellowship, I will first determine the MOp-mid-IC microcircuit inter-connectivity in the mouse brain via
electrophysiological methods. I follow up on these results by investigating how alcohol mediates IC
microcircuitry. I will then observe the behavioral implications of this circuit by testing if exercise during alcohol
abstinence promotes alterations in the IC SST-IN activity. Completion of this F31 grant will provide me with
new techniques and skills to help me advance in my career as an independent academic researcher.

Grant Number: 5F31AA030901-03
NIH Institute/Center: NIH
Principal Investigator: Danielle Adank

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