2019
Kappa-opioid receptors, dynorphin, and cocaine addiction: a positron emission tomography study
Martinez D, Slifstein M, Matuskey D, Nabulsi N, Zheng MQ, Lin SF, Ropchan J, Urban N, Grassetti A, Chang D, Salling M, Foltin R, Carson RE, Huang Y. Kappa-opioid receptors, dynorphin, and cocaine addiction: a positron emission tomography study. Neuropsychopharmacology 2019, 44: 1720-1727. PMID: 31026862, PMCID: PMC6785004, DOI: 10.1038/s41386-019-0398-4.Peer-Reviewed Original ResearchConceptsCocaine use disorderStress-induced relapsePositron emission tomographyCocaine bingeKappa-opioid receptor/dynorphin systemKOR selective agonistPositron emission tomography studyKappa-opioid receptorsCold pressor testCocaine self-administration sessionsEmission tomography studiesSelf-administration sessionsStress-induced cocaineEndogenous dynorphinDynorphin systemHealthy controlsPressor testSelective agonistPET scansAnimal studiesKOR bindingReceptor availabilitySignificant associationBrain regionsEmission tomography
2017
Novel 18F-Labeled κ-Opioid Receptor Antagonist as PET Radiotracer: Synthesis and In Vivo Evaluation of 18F-LY2459989 in Nonhuman Primates
Li S, Cai Z, Zheng MQ, Holden D, Naganawa M, Lin SF, Ropchan J, Labaree D, Kapinos M, Lara-Jaime T, Navarro A, Huang Y. Novel 18F-Labeled κ-Opioid Receptor Antagonist as PET Radiotracer: Synthesis and In Vivo Evaluation of 18F-LY2459989 in Nonhuman Primates. Journal Of Nuclear Medicine 2017, 59: 140-146. PMID: 28747521, PMCID: PMC5750518, DOI: 10.2967/jnumed.117.195586.Peer-Reviewed Original ResearchConceptsPET radiotracersNonhuman primatesTime-activity curvesHigh specific binding signalsΚ-opioid receptor antagonistCentral nervous system disordersFast tissue kineticsBrain time-activity curvesCaudate/putamenNervous system disordersΚ-opioid receptorsRegional binding potentialPeak uptake timeRegional distribution volumesAntagonist radiotracersReceptor antagonistFrontal cortexNovel 18FRegional time-activity curvesSystem disordersNovel radioligandPET scansSpecific binding signalsTemporal cortexMonkey brain
2016
PET imaging reveals sex differences in kappa opioid receptor availability in humans, in vivo.
Vijay A, Wang S, Worhunsky P, Zheng MQ, Nabulsi N, Ropchan J, Krishnan-Sarin S, Huang Y, Morris ED. PET imaging reveals sex differences in kappa opioid receptor availability in humans, in vivo. Am J Nucl Med Mol Imaging 2016, 6: 205-14. PMID: 27648372, PMCID: PMC5004062.Peer-Reviewed Original ResearchKappa-opioid receptorsOpioid receptorsSex differencesOpioid receptor availabilityTreatment of painHealthy control menDelta-opioid receptorsVolume of distributionEfficacy of treatmentKappa opioid analgesicsMultiple brain regionsOpioid analgesicsKOR systemControl menAntagonist tracersPET scansReceptor availabilityVoxel levelPharmacological targetsBrain regionsPET imagingAddiction withdrawalReceptorsTreatmentPartial volume correction
2015
PET imaging evaluation of [18F]DBT-10, a novel radioligand specific to α7 nicotinic acetylcholine receptors, in nonhuman primates
Hillmer AT, Zheng MQ, Li S, Scheunemann M, Lin SF, Holden D, Labaree D, Ropchan J, Teodoro R, Deuther-Conrad W, Carson RE, Brust P, Huang Y. PET imaging evaluation of [18F]DBT-10, a novel radioligand specific to α7 nicotinic acetylcholine receptors, in nonhuman primates. European Journal Of Nuclear Medicine And Molecular Imaging 2015, 43: 537-547. PMID: 26455500, PMCID: PMC4733418, DOI: 10.1007/s00259-015-3209-0.Peer-Reviewed Original ResearchConceptsPurposePositron emission tomographyDose-dependent blockadeStandardized uptake valueΑ7 nicotinic acetylcholine receptorNonhuman primatesPeak standardized uptake valueBaseline PET scanParent fractionEx vivo analysisPlasma free fractionNicotinic acetylcholine receptorsTotal distribution volumeBrain tissue samplesRegional rank orderTwo-tissue compartment modelSpecific radioligandFrontal cortexOccipital cortexNovel radioligandPET scansArterial plasmaAcetylcholine receptorsUptake valueAlzheimer's diseaseBrain tissueTest–Retest Reproducibility of Binding Parameters in Humans with 11C-LY2795050, an Antagonist PET Radiotracer for the κ Opioid Receptor
Naganawa M, Zheng MQ, Henry S, Nabulsi N, Lin SF, Ropchan J, Labaree D, Najafzadeh S, Kapinos M, Tauscher J, Neumeister A, Carson RE, Huang Y. Test–Retest Reproducibility of Binding Parameters in Humans with 11C-LY2795050, an Antagonist PET Radiotracer for the κ Opioid Receptor. Journal Of Nuclear Medicine 2015, 56: 243-248. PMID: 25593119, PMCID: PMC4322754, DOI: 10.2967/jnumed.114.147975.Peer-Reviewed Original ResearchConceptsTest-retest variabilityOpioid receptorsOutcome measuresAbsolute test-retest variabilityMultilinear analysis 1Healthy human subjectsSuitable reference regionTest-retest reproducibilityIntraclass correlation coefficientAntagonist radiotracersHealthy subjectsLY2795050PET scansBrain regionsDistribution volumePET radioligandTest-retest performancePET studiesArterial input functionPET radiotracersHuman subjectsReference regionReceptorsVT valuesKOR
2013
Elevated brain cannabinoid CB1 receptor availability in post-traumatic stress disorder: a positron emission tomography study
Neumeister A, Normandin MD, Pietrzak RH, Piomelli D, Zheng MQ, Gujarro-Anton A, Potenza MN, Bailey CR, Lin SF, Najafzadeh S, Ropchan J, Henry S, Corsi-Travali S, Carson RE, Huang Y. Elevated brain cannabinoid CB1 receptor availability in post-traumatic stress disorder: a positron emission tomography study. Molecular Psychiatry 2013, 18: 1034-1040. PMID: 23670490, PMCID: PMC3752332, DOI: 10.1038/mp.2013.61.Peer-Reviewed Original ResearchMeSH KeywordsAdultAmidesAnalysis of VarianceArachidonic AcidsBrainEndocannabinoidsEthanolaminesFemaleGlyceridesHumansHydrocortisoneImidazolesLogistic ModelsMalePalmitic AcidsPiperidinesPolyunsaturated AlkamidesPyrazolesRadionuclide ImagingReceptor, Cannabinoid, CB1Stress Disorders, Post-TraumaticYoung AdultConceptsPost-traumatic stress disorderVolume of distributionCB1 receptor availabilityPositron emission tomographyHC groupReceptor availabilityTC groupCannabinoid type 1 receptorStress disorderPositron emission tomography studyEvidence-based pharmacotherapyEtiology of PTSDType 1 receptorEmission tomography studiesAnandamide concentrationsElevated brainPeripheral levelsHealthy controlsCB1 receptorsUntreated individualsPET scansAnimal modelsCortisol levelsLifetime historyEmission tomography