2020
Dysregulation of Decision Making Related to Metabotropic Glutamate 5, but Not Midbrain D3, Receptor Availability Following Cocaine Self-administration in Rats
Groman SM, Hillmer AT, Liu H, Fowles K, Holden D, Morris ED, Lee D, Taylor JR. Dysregulation of Decision Making Related to Metabotropic Glutamate 5, but Not Midbrain D3, Receptor Availability Following Cocaine Self-administration in Rats. Biological Psychiatry 2020, 88: 777-787. PMID: 32826065, PMCID: PMC8935943, DOI: 10.1016/j.biopsych.2020.06.020.Peer-Reviewed Original ResearchConceptsCocaine-dependent individualsProbabilistic reversalRelapse-like behaviorTest of motivationReceptor availabilityPersistent drug useMetabotropic glutamate 5Neural mechanismsCompulsive patternsDecision-making processDrug-induced adaptationsSelective impairmentDrug useWeeks of abstinenceCocaine takingCocaine Self-AdministrationBrain regionsDegree of disruptionDays of cocaineAdult male ratsCocaine-induced increasesCocaine-induced changesDrug-induced alterationsRobust alterationsPositron emission tomographyMidbrain D3 Receptor Availability Predicts Escalation in Cocaine Self-administration
Groman SM, Hillmer AT, Liu H, Fowles K, Holden D, Morris ED, Lee D, Taylor JR. Midbrain D3 Receptor Availability Predicts Escalation in Cocaine Self-administration. Biological Psychiatry 2020, 88: 767-776. PMID: 32312578, PMCID: PMC8954711, DOI: 10.1016/j.biopsych.2020.02.017.Peer-Reviewed Original ResearchConceptsProbabilistic reversalTests of extinctionSubstance-dependent individualsCue-induced reinstatementRelapse-like behaviorTest of motivationAddiction-like behaviorCocaine self-administration behaviorCocaine-taking behaviorReceptor availabilitySelf-administer cocaineIndividual differencesAddicted populationNeurobiological mechanismsSelf-administration behaviorGreater escalationGreater motivationPoor decisionsNeural adaptationD3 receptor availabilityCocaine Self-AdministrationBehavioral biomarkersDecision-making functionsChoice behaviorRate of escalation
2019
Orbitofrontal Circuits Control Multiple Reinforcement-Learning Processes
Groman SM, Keistler C, Keip AJ, Hammarlund E, DiLeone RJ, Pittenger C, Lee D, Taylor JR. Orbitofrontal Circuits Control Multiple Reinforcement-Learning Processes. Neuron 2019, 103: 734-746.e3. PMID: 31253468, PMCID: PMC6893860, DOI: 10.1016/j.neuron.2019.05.042.Peer-Reviewed Original Research