grant

Amygdala kappa opioid system involvement in opioid relapse in pain states

Organization UNIVERSITY OF CALIFORNIA LOS ANGELESLocation LOS ANGELES, UNITED STATESPosted 1 May 2022Deadline 28 Feb 2027
NIHUS FederalResearch GrantFY2025ACTH-Releasing FactorAddressAffectiveAlcohol DrinkingAlcohol consumptionAmygdalaAmygdaloid BodyAmygdaloid NucleusAmygdaloid structureAnhedoniaAnimalsAnxietyAttenuatedBehaviorBipolar Affective PsychosisBipolar DisorderBrain regionCRF-41Cell NucleusCentral Lateral NucleusCentral Lateral Thalamic NucleusChronicConsumptionCorticoliberinCorticotropin-Releasing FactorCorticotropin-Releasing Factor-41Corticotropin-Releasing HormoneCorticotropin-Releasing Hormone-41DataDevelopmentDrug ExposureDrugsDynorphinsEmotionalEtOH drinkingEtOH useExhibitsExtinctionFiberGeneticGenetic ModelsHeavy DrinkingHypothalamic structureHypothalamusIRESInternal Ribosome Entry SegmentInternal Ribosome Entry SiteIntravenousLeadLearningLigandsLong-term painManic-Depressive PsychosisMediatingMedicalMedical RecordsMedicationMedulla SpinalisMental DepressionMental disordersMental health disordersMessenger RNAMiceMice MammalsModelingMurineMusNegative ReinforcementsNerve CellsNerve UnitNeural CellNeurocyteNeuronsNociceptionNucleusOpiate AddictionOpiate AntagonistOpiate DependenceOpiate agonistOpiate receptor agonistOpiate receptor antagonistOpiatesOpioidOpioid AntagonistOpioid agonistOpioid receptor agonistOpioid receptor antagonistPainPain DisorderPain intensityPainfulPatientsPb elementPersistent painPharmaceutical PreparationsPhotometryPredispositionPrevalenceProcessProtocolProtocols documentationPsychiatric DiseasePsychiatric DisorderPsychopathologyR-Series Research ProjectsR01 MechanismR01 ProgramRT-PCRReceptor ActivationReceptor SignalingReceptor Up-RegulationRelapseReportingResearch GrantsResearch Project GrantsResearch ProjectsReverse Transcriptase Polymerase Chain ReactionRewardsRibosome Entry SiteRisk FactorsRodent ModelSelf AdministeredSelf AdministrationSensorySpinal CordStimulusStressSuicideSusceptibilitySystemTestingTimeabnormal psychologyaddictionaddictive disorderalcohol ingestionalcohol intakealcohol product usealcohol usealcoholic beverage consumptionalcoholic drink intakeamygdaloid nuclear complexanimal painattenuateattenuatesbiological adaptation to stressbipolar affective disorderbipolar diseasebipolar illnessbipolar mood disorderchronic painchronic pain patientconstant paincorticotropin releasing hormonedeficits in reward learningdepressiondevelopmentaldisabling paindrink heavilydrug relapsedrug seeking behaviordrug withdrawaldrug/agentethanol consumptionethanol drinkingethanol ingestionethanol intakeethanol product useethanol useexcessive alcohol consumptionexcessive alcohol ingestionexcessive alcohol intakeexcessive drinkingexcessive ethanol ingestionexperienceextreme drinkingfatal attemptfatal suicidegenetic approachgenetic strategyheavy alcohol useheavy metal Pbheavy metal leadhypothalamicin vivointent to dieintravenous opiateintravenous opioidkappa opiatekappa opioidkappa opioid receptorslasting painlicit opioidmRNAmanic depressive disordermanic depressive illnessmental illnessmotivated behaviormouse modelmurine modelnegative affectnegative affectivityneuronalnew drug treatmentsnew drugsnew pharmacological therapeuticnew therapeuticsnew therapynext generation therapeuticsnociceptivenon-medical opioid usenonmedical opioid usenor-BNInor-binaltorphiminenorbinaltorphiminenovel drug treatmentsnovel drugsnovel pharmaco-therapeuticnovel pharmacological therapeuticnovel therapeuticsnovel therapyon-going painongoing painopiate crisisopiate injectionopiate medicationopiate misuseopiate overdoseopiate related overdoseopiate use disorderopioid addictionopioid crisisopioid dependenceopioid dependentopioid drug overdoseopioid epidemicopioid induced overdoseopioid injectionopioid injectoropioid intoxicationopioid medicationopioid medication overdoseopioid misuseopioid overdoseopioid poisoningopioid related overdoseopioid toxicityopioid use disorderpain-related disabilityparabrachial nucleuspatient with chronic painpharmacologicpre-clinicalpreclinicalpreferenceprescribed opiateprescribed opioidprescription opiateprescription opioidpsychiatric illnesspsychological disorderreaction; crisisreceptor expressionreceptor functionreceptor upregulationreverse transcriptase PCRreward circuit dysfunctionreward dysfunctionreward system dysfunctionsensory inputstress responsestress; reactionsuicidestherapeutic opioidκ opiateκ opioidκ opioid receptorsκ-ORκOR
Sign up free to applyApply link · pipeline · email alerts
— or —

Get email alerts for similar roles

Weekly digest · no password needed · unsubscribe any time

Full Description

ABSTRACT
Chronic pain is second only to bipolar disorder as the major cause of suicide among all medical illnesses,
where prevalence of depression ranges between 30 to 80%. The importance of this negative affect is reflected
in studies that show co-existing psychopathology increases pain intensity, pain-related disability and
susceptibility for opioid use disorder. Allostatic adaptations caused by chronic opioid drug exposure, diminish
reward, however, paradoxically, they reinforce drug-seeking behavior that contributes to the high rates of
opioid misuse and development of opioid use disorder in chronic pain patients. One of the opponent processes
to chronic drug administration is engagement of extra-hypothalamic stress systems, including increased
activity of corticotropin-releasing factor and dynorphin within the extended amygdala (which includes the
central nucleus of the amygdala, CeA). The extended amygdala integrates stress and reward systems to
produce drug withdrawal-induced negative affective states. Additionally, the lateral CeA responds
predominantly to painful stimuli being termed the ‘nociceptive amygdala’ and a circuit from the parabrachial
nucleus to the CeA was recently shown to be involved in aversive learning of noxious (painful) stimuli.
Dynorphin neurons are present in the lateral CeA, of which ~1/3 co-express corticotrophin releasing factor.
This brain region has been implicated in both drug consumption and pain. For example, administration the
kappa opioid receptor (KOR) antagonist nor-BNI into the CeA decreased excessive alcohol intake and chemo-
genetic silencing CeA dynorphin neurons reduced alcohol drinking. KOR signaling in the CeA was also shown
to contribute to chronic pain-induced aversion. Given the involvement of the CeA in aversive learning related to
ongoing pain, and the involvement of these neurons in drug-seeking behavior, the primary aim of our
application is to determine the extent amygdala KOR system contributes to increased drug-seeking behavior in
chronic pain. We will use a mouse model of opioid intravenous self-administration focusing on a reinstatement
paradigm that models relapse of drug-seeking behavior. This paradigm allows us to determine the extent KOR
systems contribute to stress-induced reinstatement. Our central hypothesis is that chronic pain states lead
to activation of KOR systems in the CeA that are involved in stress-induced reinstatement of opioid
drug-seeking behavior. Aim 1 of the proposal will determine the necessity and sufficiency of CeA dyn-KOR
system in negative reinforcement. Aim 2 will determine the sufficient and necessity of the CeA
dynorphin/kappa opioid system in reinstatement of opioid place preference. Aim 3 will determine the extent
stress-induced reinstatement of opioid self-administration is driven by the kappa opioid system in the CeA.

Grant Number: 5R01DA053752-04
NIH Institute/Center: NIH
Principal Investigator: CATHERINE CAHILL

Sign up free to get the apply link, save to pipeline, and set email alerts.

Sign up free →

Agency Plan

7-day free trial

Unlock procurement & grants

Upgrade to access active tenders from World Bank, UNDP, ADB and more — with email alerts and pipeline tracking.

$29.99 / month

  • 🔔Email alerts for new matching tenders
  • 🗂️Track tenders in your pipeline
  • 💰Filter by contract value
  • 📥Export results to CSV
  • 📌Save searches with one click
Start 7-day free trial →

Explore more

📍 More grants in UNITED STATES🏷 More NIH opportunities🏷 More US Federal opportunities🏷 More Research Grant opportunities🏢 All nih_reporter opportunities