Your search keyword '"Carlezon WA Jr"' showing total 22 results

1. Nucleus Accumbens Medium Spiny Neuron Subtypes Differentially Regulate Stress-Associated Alterations in Sleep Architecture.

Author

McCullough KM, Missig G, Robble MA, Foilb AR, Wells AM, Hartmann J, Anderson KJ, Neve RL, Nestler EJ, Ressler KJ, and Carlezon WA Jr

Subjects

Animals, Mice, Mice, Inbred C57BL, Mice, Transgenic, Neurons metabolism, Receptors, Dopamine D2 metabolism, Sleep, Nucleus Accumbens metabolism, Receptors, Dopamine D1 metabolism

Abstract

Background: Stress is implicated in the pathophysiology of major depression and posttraumatic stress disorder. These conditions share core features, including motivational deficits, heighted anxiety, and sleep dysregulation. Chronic stress produces these same features in rodents, with some individuals being susceptible or resilient, as seen in humans. While stress-induced neuroadaptations within the nucleus accumbens are implicated in susceptibility-related dysregulation of motivational and emotional behaviors, their effects on sleep are unclear., Methods: We used chemogenetics (DREADDs [designer receptors exclusively activated by designer drugs]) to examine the effects of selective alterations in activity of nucleus accumbens medium spiny neurons expressing dopamine D 1 receptors (D1-MSNs) or dopamine D 2 receptors (D2-MSNs) on sleep-related end points. Mice were implanted with wireless transmitters enabling continuous collection of data to quantify vigilance states over a 20-day test period. Parallel cohorts were examined in behavioral tests assessing stress susceptibility., Results: D1- and D2-MSNs play dissociable roles in sleep regulation. Stimulation of inhibitory or excitatory DREADDs expressed in D1-MSNs exclusively affects rapid eye movement sleep, whereas targeting D2-MSNs affects slow wave sleep. The combined effects of D1-MSN inhibition and D2-MSN activation on sleep resemble those of chronic social defeat stress. Alterations in D1-MSN function also affect stress susceptibility in social behavior tests. Elevation of CREB (cAMP response element-binding protein) within D1-MSNs is sufficient to produce stress-like effects on rapid eye movement sleep., Conclusions: In addition to regulation of motivational and emotional behaviors, the nucleus accumbens also influences sleep, an end point with high translational relevance. These findings provide a neural basis for comorbidity in key features of stress-related illness., (Copyright © 2021 Society of Biological Psychiatry. Published by Elsevier Inc. All rights reserved.)

Published

2021

2. Pituitary Adenylate Cyclase-Activating Polypeptide Disrupts Motivation, Social Interaction, and Attention in Male Sprague Dawley Rats.

Author

Donahue RJ, Venkataraman A, Carroll FI, Meloni EG, and Carlezon WA Jr

Subjects

Animals, Disease Models, Animal, Male, Neurotransmitter Agents administration & dosage, Pituitary Adenylate Cyclase-Activating Polypeptide administration & dosage, Rats, Rats, Sprague-Dawley, Anhedonia drug effects, Attention drug effects, Behavior, Animal drug effects, Motivation drug effects, Neurotransmitter Agents pharmacology, Pituitary Adenylate Cyclase-Activating Polypeptide pharmacology, Social Behavior

Abstract

Background: Severe or prolonged stress can trigger psychiatric illnesses including mood and anxiety disorders. Recent work indicates that pituitary adenylate cyclase-activating polypeptide (PACAP) plays an important role in regulating stress effects. In rodents, exogenous PACAP administration can produce persistent elevations in the acoustic startle response, which may reflect anxiety-like signs including hypervigilance. We investigated whether PACAP causes acute or persistent alterations in behaviors that reflect other core features of mood and anxiety disorders (motivation, social interaction, and attention)., Methods: Using male Sprague Dawley rats, we examined if PACAP (.25-1.0 µg, intracerebroventricular infusion) affects motivation as measured in the intracranial self-stimulation test. We also examined if PACAP alters interactions with a conspecific in the social interaction test. Finally, we examined if PACAP affects performance in the 5-choice serial reaction time task, which quantifies attention and error processing., Results: Dose-dependent disruptions in motivation, social interaction, and attention were produced by PACAP, as reflected by increases in reward thresholds, decreases in social behaviors, and decreases in correct responses and alterations in posterror accuracy. Behavior normalized quickly in the intracranial self-stimulation and 5-choice serial reaction time task tests but remained dysregulated in the social interaction test. Effects on attention were attenuated by the corticotropin-releasing factor receptor-1 antagonist antalarmin but not the κ opioid receptor antagonist JDTic., Conclusions: Our findings suggest that PACAP affects numerous domains often dysregulated in mood and anxiety disorders, but that individual signs depend on brain substrates that are at least partially independent. This work may help to devise therapeutics that mitigate specific signs of these disorders., (Copyright © 2015 Society of Biological Psychiatry. Published by Elsevier Inc. All rights reserved.)

Published

2016

3. Constance E. Lieber, Theodore R. Stanley, and the Enduring Impact of Philanthropy on Psychiatry Research.

Author

Krystal JH, Abi-Dargham A, Akbarian S, Arnsten AFT, Barch DM, Bearden CE, Braff DL, Brown ES, Bullmore ET, Carlezon WA Jr, Carter CS, Cook EH Jr, Daskalakis ZJ, DiLeone RJ, Duman RS, Grace AA, Hariri AR, Harrison PJ, Hiroi N, Kenny PJ, Kleinman JE, Krystal AD, Lewis DA, Lipska BK, Marder SR, Mason GF, Mathalon DH, McClung CA, McDougle CJ, McIntosh AM, McMahon FJ, Mirnics K, Monteggia LM, Narendran R, Nestler EJ, Neumeister A, O'Donovan MC, Öngür D, Pariante CM, Paulus MP, Pearlson G, Phillips ML, Pine DS, Pizzagalli DA, Pletnikov MV, Ragland JD, Rapoport JL, Ressler KJ, Russo SJ, Sanacora G, Sawa A, Schatzberg AF, Shaham Y, Shamay-Tsoory SG, Sklar P, State MW, Stein MB, Strakowski SM, Taylor SF, Turecki G, Turetsky BI, Weissman MM, Zachariou V, Zarate CA Jr, and Zubieta JK

Published

2016

4. Effects of striatal ΔFosB overexpression and ketamine on social defeat stress-induced anhedonia in mice.

Author

Donahue RJ, Muschamp JW, Russo SJ, Nestler EJ, and Carlezon WA Jr

Subjects

Animals, Electric Stimulation, Hypothalamus physiopathology, Male, Mice, Mice, Inbred C57BL, Reward, Self Stimulation, Social Behavior, Anhedonia drug effects, Anhedonia physiology, Antidepressive Agents pharmacology, Corpus Striatum metabolism, Ketamine pharmacology, Proto-Oncogene Proteins c-fos metabolism, Stress, Psychological physiopathology

Abstract

Background: Chronic social defeat stress (CSDS) produces persistent behavioral adaptations in mice. In many behavioral assays, it can be difficult to determine if these adaptations reflect core signs of depression. We designed studies to characterize the effects of CSDS on sensitivity to reward because anhedonia (reduced sensitivity to reward) is a defining characteristic of depressive disorders in humans. We also examined the effects of striatal ΔFosB overexpression and the N-methyl-D-aspartate receptor antagonist ketamine, both of which promote resilience, on CSDS-induced alterations in reward function and social interaction., Methods: Intracranial self-stimulation (ICSS) was used to quantify CSDS-induced changes in reward function. Mice were implanted with lateral hypothalamic electrodes, and ICSS thresholds were measured after each of 10 daily CSDS sessions and during a 5-day recovery period. We also examined if acute intraperitoneal administration of ketamine (2.5-20 mg/kg) reverses CSDS-induced effects on reward or, in separate mice, social interaction., Results: ICSS thresholds were increased by CSDS, indicating decreases in the rewarding impact of lateral hypothalamic stimulation (anhedonia). This effect was attenuated in mice overexpressing ∆FosB in striatum, consistent with pro-resilient actions of this transcription factor. High, but not low, doses of ketamine administered after completion of the CSDS regimen attenuated social avoidance in defeated mice, although this effect was transient. Ketamine did not block CSDS-induced anhedonia in the ICSS test., Conclusions: This study found that CSDS triggers persistent anhedonia and confirms that ΔFosB overexpression produces stress resilience. The findings of this study also indicate that acute administration of ketamine fails to attenuate CSDS-induced anhedonia despite reducing other depression-related behavioral abnormalities., (Copyright © 2014 Society of Biological Psychiatry. Published by Elsevier Inc. All rights reserved.)

Published

2014

5. D-cycloserine effects on extinction of conditioned responses to drug-related cues.

Author

Myers KM and Carlezon WA Jr

Subjects

Animals, Behavior, Addictive, Conditioning, Psychological, Humans, Implosive Therapy, Antimetabolites pharmacology, Cues, Cycloserine pharmacology, Drug-Seeking Behavior drug effects, Extinction, Psychological drug effects, Receptors, N-Methyl-D-Aspartate agonists, Substance-Related Disorders therapy

Abstract

D-cycloserine (DCS) is an N-methyl-D-aspartate (NMDA) receptor partial agonist that facilitates extinction of conditioned fear in animals and cue exposure therapy (CET) for fear and anxiety disorders in people. Recent preclinical and clinical studies have examined the effect of DCS on extinction of conditioned responses elicited by cues paired with administration of or withdrawal from drugs of abuse, including physiological responses, craving, withdrawal, and drug-seeking behavior. DCS facilitates extinction and blunts postextinction recovery of these responses in animal models, including place conditioning and drug self-administration, but DCS effects on CET in substance users/abusers are less robust. Some of the null effects in the clinical literature might be attributable to issues related to sample size, data characteristics, DCS administration, and participant characteristics, among others. In this review we describe the preclinical and clinical literatures on DCS modulation of extinction of addiction-related conditioned responses, consider possible limitations of the clinical studies that have been published to date, and propose ways of designing future clinical studies so as to maximize the probability of detecting a DCS effect. We also discuss concerns with regard to potential harmful effects of DCS-coupled CET in addicts and describe how these concerns might be mitigated. We conclude that it is as yet unclear whether DCS-coupled CET might be a useful approach in the treatment of addiction., (Copyright © 2012 Society of Biological Psychiatry. Published by Elsevier Inc. All rights reserved.)

Published

2012

6. ΔFosB enhances the rewarding effects of cocaine while reducing the pro-depressive effects of the kappa-opioid receptor agonist U50488.

Author

Muschamp JW, Nemeth CL, Robison AJ, Nestler EJ, and Carlezon WA Jr

Subjects

Animals, Biophysics, Conditioning, Operant drug effects, Corpus Striatum drug effects, Corpus Striatum metabolism, Dose-Response Relationship, Drug, Gene Expression Regulation drug effects, Gene Expression Regulation genetics, Hypothalamic Area, Lateral drug effects, Hypothalamic Area, Lateral physiology, Male, Medial Forebrain Bundle physiology, Mice, Mice, Inbred C57BL, Mice, Transgenic, Phosphopyruvate Hydratase genetics, Phosphopyruvate Hydratase metabolism, Proto-Oncogene Proteins c-fos genetics, Self Stimulation, 3,4-Dichloro-N-methyl-N-(2-(1-pyrrolidinyl)-cyclohexyl)-benzeneacetamide, (trans)-Isomer administration & dosage, Anesthetics, Local administration & dosage, Cocaine administration & dosage, Proto-Oncogene Proteins c-fos metabolism, Receptors, Opioid, kappa agonists, Reward

Abstract

Background: Elevated expression of the transcription factor ΔFosB accompanies repeated exposure to drugs of abuse, particularly in brain areas associated with reward and motivation (e.g., nucleus accumbens). The persistent effects of ΔFosB on target genes might play an important role in the development and expression of behavioral adaptations that characterize addiction. This study examines how ΔFosB influences the responsiveness of the brain reward system to rewarding and aversive drugs., Methods: We used the intracranial self-stimulation paradigm to assess the effects of cocaine in transgenic mice with inducible overexpression of ΔFosB in striatal regions (including nucleus accumbens and dorsal striatum). Mice implanted with lateral hypothalamic stimulating electrodes were trained with the "rate-frequency" procedure for intracranial self-stimulation to determine the frequency at which stimulation becomes rewarding (threshold)., Results: A dose-effect analysis of cocaine effects revealed that mice overexpressing ΔFosB show increased sensitivity to the rewarding (threshold-lowering) effects of the drug, compared with littermate control subjects. Interestingly, mice overexpressing ΔFosB were also less sensitive to the pro-depressive (threshold-elevating) effects of U50488, a kappa-opioid agonist known to induce dysphoria and stress-like effects in rodents., Conclusions: These data suggest that induction of ΔFosB in striatal regions has two important behavioral consequences-increased sensitivity to drug reward, and reduced sensitivity to aversion-producing a complex phenotype that shows signs of vulnerability to addiction as well as resilience to stress., (Copyright © 2012 Society of Biological Psychiatry. Published by Elsevier Inc. All rights reserved.)

Published

2012

7. Repeated exposure to the κ-opioid receptor agonist salvinorin A modulates extracellular signal-regulated kinase and reward sensitivity.

Author

Potter DN, Damez-Werno D, Carlezon WA Jr, Cohen BM, and Chartoff EH

Subjects

Animals, Cocaine antagonists & inhibitors, Cocaine pharmacology, Cyclic AMP Response Element-Binding Protein metabolism, Diterpenes, Clerodane antagonists & inhibitors, Drug Interactions physiology, Male, Naltrexone analogs & derivatives, Naltrexone pharmacology, Nucleus Accumbens metabolism, Proto-Oncogene Proteins c-fos metabolism, Rats, Rats, Sprague-Dawley, Receptors, Opioid, kappa antagonists & inhibitors, Self Stimulation physiology, Signal Transduction drug effects, Signal Transduction physiology, Time Factors, Diterpenes, Clerodane pharmacology, Extracellular Signal-Regulated MAP Kinases metabolism, Receptors, Opioid, kappa agonists, Reward, Self Stimulation drug effects

Abstract

Background: Repeated exposure to drugs of abuse and stress increase dynorphin, a κ opioid receptor (KOR) ligand, in the nucleus accumbens (NAc). Acute KOR activation produces dysphoria that might contribute to addictive behavior. How repeated KOR activation modulates reward circuitry is not understood., Methods: We used intracranial self-stimulation (ICSS), a method that provides a behavioral index of reward sensitivity, to measure the effects of repeated administration of the KOR agonist salvinorin A (salvA) (2 mg/kg) on the reward-potentiating effects of cocaine (5.0 mg/kg). In separate rats, we measured the effects of salvA on activation of extracellular signal regulated kinase (ERK), cyclic adenosine monophosphate (cAMP) response element binding protein, and c-Fos within the NAc., Results: SalvA had biphasic effects on reward: an immediate effect was to decrease the rewarding impact of ICSS, whereas a delayed effect was to increase the rewarding impact of ICSS. Repeated salvA produced a net decrease in the reward-potentiating effects of cocaine. In the NAc, both acute and repeated salvA administration increased phosphorylated ERK, whereas only acute salvA increased c-Fos and repeated salvA increased phosphorylated cAMP response element binding protein. The KOR antagonist nor-binaltorphimine (20 mg/kg) blocked the immediate and delayed effects of salvA and prolonged the duration of cocaine effects in ICSS., Conclusions: Repeated salvA might trigger opponent processes such that "withdrawal" from the dysphoric effects of KOR activation is rewarding and decreases the net rewarding valence of cocaine. The temporal effects of salvA on ERK signaling suggest KOR-mediated engagement of distinct signaling pathways within the NAc that might contribute to biphasic effects on reward sensitivity., (Copyright © 2011 Society of Biological Psychiatry. Published by Elsevier Inc. All rights reserved.)

Published

2011

8. Kappa opioid receptor signaling in the basolateral amygdala regulates conditioned fear and anxiety in rats.

Author

Knoll AT, Muschamp JW, Daws SE, Ferguson D, Dietz DM, Meloni EG, Carroll FI, Nestler EJ, Konradi C, and Carlezon WA Jr

Subjects

Amygdala drug effects, Animals, Conditioning, Psychological drug effects, Corpus Striatum drug effects, Corpus Striatum metabolism, Disease Models, Animal, Extinction, Psychological physiology, Fear drug effects, Gene Expression Regulation physiology, Hippocampus drug effects, Hippocampus metabolism, Male, Maze Learning drug effects, Maze Learning physiology, Microinjections, Piperidines administration & dosage, Piperidines pharmacology, Rats, Receptors, Opioid, kappa antagonists & inhibitors, Receptors, Opioid, kappa biosynthesis, Reflex, Startle drug effects, Reflex, Startle physiology, Signal Transduction drug effects, Tetrahydroisoquinolines administration & dosage, Tetrahydroisoquinolines pharmacology, Amygdala metabolism, Anxiety metabolism, Conditioning, Psychological physiology, Dynorphins physiology, Fear physiology, Receptors, Opioid, kappa physiology, Signal Transduction physiology

Abstract

Background: The kappa opioid receptor (KOR) system contributes to the prodepressive and aversive consequences of stress and is implicated in the facilitation of conditioned fear and anxiety in rodents. Here, we sought to identify neural circuits that mediate KOR system effects on fear and anxiety in rats., Methods: We assessed whether fear conditioning induces plasticity in KOR or dynorphin (the endogenous KOR ligand) messenger RNA (mRNA) expression in the basolateral (BLA) and central (CeA) nuclei of the amygdala, hippocampus, or striatum. We then assessed whether microinfusions of the KOR antagonist JDTic (0-10 μg/side) into the BLA or CeA affect the expression of conditioned fear or anxiety. Finally, we examined whether fear extinction induces plasticity in KOR mRNA expression that relates to the quality of fear extinction., Results: Fear conditioning upregulated KOR mRNA in the BLA by 65% and downregulated it in the striatum by 22%, without affecting KOR levels in the CeA or hippocampus, or dynorphin levels in any region. KOR antagonism in either the BLA or CeA decreased conditioned fear in the fear-potentiated startle paradigm, whereas KOR antagonism in the BLA, but not the CeA, produced anxiolytic-like effects in the elevated plus maze. Effective fear extinction was associated with a 67% reduction in KOR mRNA in the BLA., Conclusions: These findings suggest that fear conditioning and extinction dynamically regulate KOR expression in the BLA and provide evidence that the BLA and CeA are important neural substrates mediating the anxiolytic-like effects of KOR antagonists in models of fear and anxiety., (Copyright © 2011 Society of Biological Psychiatry. Published by Elsevier Inc. All rights reserved.)

Published

2011

9. D-cycloserine facilitates extinction of naloxone-induced conditioned place aversion in morphine-dependent rats.

Author

Myers KM and Carlezon WA Jr

Subjects

Animals, Avoidance Learning drug effects, Conditioning, Operant physiology, Cues, Disease Models, Animal, Drug Interactions, Male, Naloxone pharmacology, Narcotic Antagonists pharmacology, Rats, Rats, Sprague-Dawley, Conditioning, Operant drug effects, Cycloserine pharmacology, Excitatory Amino Acid Agonists pharmacology, Extinction, Psychological drug effects, Morphine Dependence physiopathology

Abstract

Background: Cues paired with drug administration trigger relapse to drug seeking by inducing conditioned drug craving and withdrawal. Because drug cues hinder abstinence in addicts, therapies that reduce responsiveness to drug cues might facilitate rehabilitation. Extinction is a means of reducing conditioned responses and involves exposure to the conditioned stimulus in the absence of the unconditioned stimulus with which it was paired previously. We examined conditioned withdrawal extinction using naloxone-induced conditioned place aversion (CPA) in morphine-dependent rats., Methods: Morphine-dependent rats were trained to associate an environment with naloxone-precipitated withdrawal. Subsequently, they received extinction training in which they were confined in the previously naloxone-paired environment in the absence of acute withdrawal. In some rats, the N-methyl-D-aspartate (NMDA) receptor partial agonist D-cycloserine (DCS) was administered before extinction training., Results: Morphine withdrawal-induced CPA persists in the absence of extinction training. Administration of DCS before extinction training facilitates extinction., Conclusions: D-cycloserine facilitates extinction of morphine withdrawal-associated place aversion. This effect is qualitatively similar to the effect of DCS on extinction of conditioned fear, raising the possibility of common neural mechanisms. This work extends our understanding of drug cue responsivity and provides a rationale for the development of extinction-based treatments for addiction.

Published

2010

10. The kappa-opioid agonist U69,593 blocks cocaine-induced enhancement of brain stimulation reward.

Author

Tomasiewicz HC, Todtenkopf MS, Chartoff EH, Cohen BM, and Carlezon WA Jr

Subjects

Analysis of Variance, Animals, Dose-Response Relationship, Drug, Drug Combinations, Electric Stimulation methods, Male, Medial Forebrain Bundle physiology, Rats, Rats, Sprague-Dawley, Time Factors, Benzeneacetamides pharmacology, Cocaine pharmacology, Dopamine Uptake Inhibitors pharmacology, Medial Forebrain Bundle drug effects, Pyrrolidines pharmacology, Receptors, Opioid, kappa agonists, Reward, Self Stimulation drug effects

Abstract

Background: Increasing evidence indicates that brain kappa-opioid receptors (KORs) are involved in regulation of mood states. In animal models often used to study psychiatric illness, KOR agonists produce depressive-like effects (e.g., anhedonia), whereas KOR antagonists produce antidepressant- and anxiolytic-like effects. The ability of KOR agonists to produce anhedonia-like signs in laboratory animals raises the possibility that this class of drugs might be useful to ameliorate states characterized by excess reward or motivation, such as mania or stimulant intoxication., Methods: We examined how the selective KOR agonist U69,593 affects cocaine-induced facilitation of intracranial self-stimulation (ICSS), a model of the abnormally increased reward function that characterizes mania and stimulant intoxication. Rats with stimulating electrodes implanted in the medial forebrain bundle (MFB) were tested with intraperitoneal injections of U69,593 (.063-.5 mg/kg) alone, cocaine (1.25-10 mg/kg) alone, and combinations of the drugs., Results: Cocaine dose-dependently decreased ICSS thresholds, indicating that it enhanced the rewarding impact of MFB stimulation. In contrast, U69,593 dose-dependently increased ICSS thresholds, indicating that it decreased the rewarding impact of the stimulation. Pretreatment with U69,593 blocked cocaine-induced decreases in ICSS thresholds at doses that had negligible effects on their own., Conclusions: Activation of KORs reduces the reward-related effects of cocaine. Inasmuch as cocaine-induced behavioral stimulation in rodents may model key aspects of enhanced mood in humans, these findings raise the possibility that KOR agonists might ameliorate symptoms of conditions characterized by increased motivation and hyperfunction of brain reward systems, such as mania and stimulant intoxication.

Published

2008

11. Activation of raphe efferents to the medial prefrontal cortex by corticotropin-releasing factor: correlation with anxiety-like behavior.

Author

Meloni EG, Reedy CL, Cohen BM, and Carlezon WA Jr

Subjects

Affect physiology, Animals, Arousal physiology, Brain Mapping, Efferent Pathways physiopathology, Male, Neurons physiology, Proto-Oncogene Proteins c-fos metabolism, Rats, Rats, Sprague-Dawley, Reflex, Startle physiology, Serotonin physiology, Anxiety Disorders physiopathology, Corticotropin-Releasing Hormone physiology, Prefrontal Cortex physiopathology, Raphe Nuclei physiopathology

Abstract

Background: Parallel lines of research suggest that dysfunction affecting both corticotropin-releasing factor (CRF) and serotonin (5-HT) systems is involved in the pathophysiology of psychiatric illnesses such as anxiety and depression. The effect of CRF on behavior and on the accompanying change in activity of 5-HT neurons in the dorsal and median raphe nuclei (DR and MR) that project to the ventral medial prefrontal cortex (mPFC), a brain area implicated in mood and anxiety disorders, was studied., Methods: Male Sprague-Dawley rats with intra-mPFC deposits of fluorescent microspheres received injections of CRF (1 microg, intracerebroventricular [i.c.v.]) and were tested for CRF-enhanced startle, a behavioral assay believed to reflect stress- or anxiety-like states. C-Fos immunohistochemistry was used to measure CRF-induced activity in retrogradely labeled neurons in the DR and MR and correlate this level of activity with the level of CRF-enhanced startle., Results: The CRF-enhanced startle was accompanied by an increased c-Fos expression in retrogradely labeled cells in the raphe. In the DR and MR, there was a clear topography of activation, with a higher-percent activation in retrogradely labeled neurons in caudal sections. In the caudal DR, this effect was positively correlated with the level of CRF-enhanced startle. Co-expression of retrogradely labeled cells with tryptophan hydroxylase showed that the majority (> 90%) of raphe efferents to the mPFC were from serotonergic neurons., Conclusions: These data indicate that CRF activates a subpopulation of cortical-projecting 5-HT raphe neurons and suggest that increased 5-HT release in the mPFC might be an important component driving some types of anxiety-like behaviors.

Published

2008

12. It is time to take a stand for medical research and against terrorism targeting medical scientists.

Author

Krystal JH, Carter CS, Geschwind D, Manji HK, March JS, Nestler EJ, Zubieta JK, Charney DS, Goldman D, Gur RE, Lieberman JA, Roy-Byrne P, Rubinow DR, Anderson SA, Barondes S, Berman KF, Blair J, Braff DL, Brown ES, Calabrese JR, Carlezon WA Jr, Cook EH Jr, Davidson RJ, Davis M, Desimone R, Drevets WC, Duman RS, Essock SM, Faraone SV, Freedman R, Friston KJ, Gelernter J, Geller B, Gill M, Gould E, Grace AA, Grillon C, Gueorguieva R, Hariri AR, Innis RB, Jones EG, Kleinman JE, Koob GF, Krystal AD, Leibenluft E, Levinson DF, Levitt PR, Lewis DA, Liberzon I, Lipska BK, Marder SR, Markou A, Mason GF, McDougle CJ, McEwen BS, McMahon FJ, Meaney MJ, Meltzer HY, Merikangas KR, Meyer-Lindenberg A, Mirnics K, Monteggia LM, Neumeister A, O'Brien CP, Owen MJ, Pine DS, Rapoport JL, Rauch SL, Robbins TW, Rosenbaum JF, Rosenberg DR, Ross CA, Rush AJ, Sackeim HA, Sanacora G, Schatzberg AF, Shaham Y, Siever LJ, Sunderland T, Tecott LH, Thase ME, Todd RD, Weissman MM, Yehuda R, Yoshikawa T, Young EA, and McCandless R

Subjects

Animal Rights, Animals, Crime prevention & control, Ethics, Research, Humans, Primates, United States, Animal Experimentation, Attitude of Health Personnel, Biomedical Research, Research Personnel, Terrorism prevention & control

Published

2008

13. Prenatal exposure to cocaine increases the rewarding potency of cocaine and selective dopaminergic agonists in adult mice.

Author

Malanga CJ, Riday TT, Carlezon WA Jr, and Kosofsky BE

Subjects

Animals, Behavior, Animal drug effects, Brain physiopathology, Brain radiation effects, Conditioning, Operant drug effects, Dose-Response Relationship, Drug, Drug Administration Schedule, Drug Interactions, Electric Stimulation methods, Female, Male, Mice, Pregnancy, Self Stimulation, Sex Factors, Cocaine administration & dosage, Cocaine adverse effects, Dopamine Agonists administration & dosage, Prenatal Exposure Delayed Effects, Reward

Abstract

Background: Substance abuse during pregnancy results in persistent affective and behavioral deficits in drug-exposed children, and increased rates of substance abuse have been observed in young adults prenatally exposed to drugs of abuse. Animal models of prenatal cocaine exposure have yielded differing results depending on the behavioral method used to assess drug potency., Methods: The effects of cocaine, the dopamine D1 agonists SKF-81297 and SKF-82958, and the D2 agonist quinpirole on intracranial self-stimulation were measured in adult Swiss-Webster mice exposed to cocaine in utero (40 mg/kg/day) and vehicle controls with the curve-shift method of brain stimulation-reward (BSR) threshold determination., Results: The reward-potentiating effects of cocaine (0.3-30 mg/kg IP) and SKF-82958 but not SKF-81297 on BSR were increased in adult male but not female mice after prenatal cocaine exposure. Quinpirole exerted biphasic effects on BSR, both elevating (0.1-0.3 mg/kg IP) and lowering (1.0-10 mg/kg IP) reward thresholds. Both effects of quinpirole were also enhanced in adult male mice after prenatal cocaine exposure., Conclusions: Prenatal cocaine exposure results in increased reward-potentiating potency of cocaine on BSR in adult mice in a sexually-dimorphic manner. This augmented rewarding effect of cocaine is also associated with increased sensitivity to both D1- and D2-selective agonists.

Published

2008

14. Sensitivity of the five-choice serial reaction time task to the effects of various psychotropic drugs in Sprague-Dawley rats.

Author

Paine TA, Tomasiewicz HC, Zhang K, and Carlezon WA Jr

Subjects

Animals, Benzeneacetamides pharmacology, Choice Behavior drug effects, Desipramine pharmacology, Dizocilpine Maleate pharmacology, Dose-Response Relationship, Drug, Male, Methylphenidate pharmacology, Photic Stimulation, Pyrrolidines pharmacology, Rats, Rats, Sprague-Dawley, Sensitivity and Specificity, Serial Learning drug effects, Attention drug effects, Behavior, Animal drug effects, Psychomotor Performance drug effects, Psychotropic Drugs pharmacology, Reaction Time drug effects

Abstract

Background: Attentional deficits accompany many psychiatric disorders, underscoring the need for rodent models of attention to screen novel therapeutic agents and characterize the biological basis of attention. The five-choice serial reaction time task (5CSRTT) is one such model. Here, we characterized the effects of four standard psychotropic agents on performance in the 5CSRTT., Methods: Male Sprague-Dawley rats were trained in the 5CSRTT (5-sec inter-trial interval and .5-sec stimulus duration) until they reliably performed at > 60% accuracy and < 20% omissions. They were then treated systemically with the stimulant methylphenidate (MPH) (.063-2.0 mg/kg), the N-methyl-D-aspartate antagonist dizocilpine (MK-801) (.008-.25 mg/kg), the norepinephrine reuptake inhibitor desipramine (DMI) (.63-10 mg/kg), or the kappa-receptor agonist U69,593 (.25-2.0 mg/kg) 30 min before testing., Results: Methylphenidate (.5 mg/kg) increased accuracy. Dizocilpine impaired accuracy (.25 mg/kg), increased premature responses (.063-.25 mg/kg), and increased omissions (.25 mg/kg). Desipramine decreased premature responses (5.0 mg/kg) but increased omissions (10 mg/kg), correct response latencies (5.0-10.0 mg/kg), and reward latencies (5.0-10.0 mg/kg). The kappa-opioid agonist U69,593 (1.0-2.0 mg/kg) increased omissions and correct response latencies., Conclusions: In Sprague-Dawley rats, psychotropic drugs with distinct pharmacological profiles produced distinguishable effects in the 5CSRTT. The effects of these classes of drugs under our testing conditions are qualitatively similar to their effects in humans.

Published

2007

15. Electroconvulsive seizures stimulate glial proliferation and reduce expression of Sprouty2 within the prefrontal cortex of rats.

Author

Ongür D, Pohlman J, Dow AL, Eisch AJ, Edwin F, Heckers S, Cohen BM, Patel TB, and Carlezon WA Jr

Subjects

Analysis of Variance, Animals, Antigens metabolism, Bromodeoxyuridine metabolism, Cell Count methods, Gene Expression Regulation physiology, Gene Expression Regulation radiation effects, Male, Nerve Tissue Proteins genetics, Neurons metabolism, Neurons pathology, Prefrontal Cortex pathology, Prefrontal Cortex physiopathology, Prefrontal Cortex radiation effects, Proteoglycans metabolism, Rats, Rats, Sprague-Dawley, Seizures metabolism, Seizures pathology, Cell Proliferation radiation effects, Electroshock, Nerve Tissue Proteins metabolism, Neuroglia pathology, Prefrontal Cortex metabolism, Seizures etiology

Abstract

Background: Reductions in cell number are found within the medial prefrontal cortex (PFC) in major depression and bipolar disorder, conditions for which electroconvulsive therapy (ECT) is a highly effective treatment. We investigated whether electroconvulsive seizure (ECS) in rats stimulates cellular proliferation in the PFC immediately and four weeks after the treatments. In parallel, we examined if ECS also alters the expression of Sprouty2 (SPRY2), an inhibitor of cell proliferation., Methods: Sprague-Dawley rats received 10 days of ECS treatments and bromodeoxyuridine (BrdU) injections. After a four week survival period, we estimated the density and number of BrdU-, proliferating cell nuclear antigen (PCNA)-, and SPRY2-immunoreactive cells in the medial (infralimbic) PFC (ILPFC). We also determined the percentage of BrdU-labeled cells that were immunoreactive for markers specific to oligodendrocytes, astrocytes, endothelial cells and neurons., Results: ECS dramatically enhanced the proliferation of new cells in the infralimbic PFC, and this effect persisted four weeks following the treatments. The percentage of new cells expressing oligodendrocyte precursor cell markers increased slightly following ECS. In contrast, ECS dramatically reduced the number of cells expressing SPRY2., Conclusions: ECS stimulates long-lasting increases in glial proliferation within the ILPFC. ECS also decreases SPRY2 expression in the same region, an effect that might contribute to increased glial proliferation.

Published

2007

16. Extreme chipping: addiction to a high-fat diet?

Author

Carlezon WA Jr and Chartoff EH

Subjects

Amygdala physiopathology, Behavior, Addictive physiopathology, Corticotropin-Releasing Hormone metabolism, Cyclic AMP Response Element-Binding Protein genetics, Cyclic AMP Response Element-Binding Protein physiology, Feeding Behavior physiology, Humans, Nucleus Accumbens physiopathology, Proto-Oncogene Proteins c-fos genetics, Behavior, Addictive psychology, Dietary Fats adverse effects

Published

2007

17. Microinjection of the L-type calcium channel antagonist diltiazem into the ventral nucleus accumbens shell facilitates cocaine-induced conditioned place preferences.

Author

Chartoff EH, Pliakas AM, and Carlezon WA Jr

Subjects

Anesthetics, Local administration & dosage, Animals, Calcium Channels, L-Type drug effects, Calcium Channels, L-Type metabolism, Dose-Response Relationship, Drug, Male, Microinjections, Rats, Rats, Sprague-Dawley, Calcium Channel Blockers pharmacology, Choice Behavior drug effects, Cocaine administration & dosage, Conditioning, Operant drug effects, Diltiazem pharmacology, Nucleus Accumbens drug effects

Abstract

Background: Calcium (Ca2+) influx within the nucleus accumbens shell (NASh) can influence brain reward processes. We found previously that rats self-administer NMDA receptor antagonists (which block Ca2+ influx through NMDA receptors) into the NASh. We also found that manipulations which increase expression of Ca2+-permeable AMPA receptors within this region make cocaine aversive. Here we examined if Ca2+ influx via L-type Ca2+ channels within the NASh would influence cocaine reward., Methods: Rats received bilateral microinjections of the L-type Ca2+ channel antagonist diltiazem into the ventral NASh prior to place conditioning with systemic cocaine., Results: Microinjections of diltiazem (10 nmol/hemisphere) into the ventral NASh facilitated the ability of a sub-threshold dose of cocaine (5.0 mg/kg) to establish place preferences, but did not affect place conditioning on their own (5.0-40 nmol/hemisphere). Microinjections into more dorsal regions had no effects., Conclusions: Blockade of Ca2+ influx through L-type channels Ca2+ within the ventral NASh increases cocaine reward.

Published

2006

18. The mesolimbic dopamine reward circuit in depression.

Author

Nestler EJ and Carlezon WA Jr

Subjects

Animals, Rats, Depressive Disorder metabolism, Depressive Disorder psychology, Dopamine metabolism, Limbic System metabolism, Reward

Abstract

The neural circuitry that mediates mood under normal and abnormal conditions remains incompletely understood. Most attention in the field has focused on hippocampal and frontal cortical regions for their role in depression and antidepressant action. While these regions no doubt play important roles in these phenomena, there is compelling evidence that other brain regions are also involved. Here we focus on the potential role of the nucleus accumbens (NAc; ventral striatum) and its dopaminergic input from the ventral tegmental area (VTA), which form the mesolimbic dopamine system, in depression. The mesolimbic dopamine system is most often associated with the rewarding effects of food, sex, and drugs of abuse. Given the prominence of anhedonia, reduced motivation, and decreased energy level in most individuals with depression, we propose that the NAc and VTA contribute importantly to the pathophysiology and symptomatology of depression and may even be involved in its etiology. We review recent studies showing that manipulations of key proteins (e.g. CREB, dynorphin, BDNF, MCH, or Clock) within the VTA-NAc circuit of rodents produce unique behavioral phenotypes, some of which are directly relevant to depression. Studies of these and other proteins in the mesolimbic dopamine system have established novel approaches to modeling key symptoms of depression in animals, and could enable the development of antidepressant medications with fundamentally new mechanisms of action.

Published

2006

19. Antidepressant-like effects of cranial stimulation within a low-energy magnetic field in rats.

Author

Carlezon WA Jr, Rohan ML, Mague SD, Meloni EG, Parsegian A, Cayetano K, Tomasiewicz HC, Rouse ED, Cohen BM, and Renshaw PF

Subjects

Animals, Antidepressive Agents, Second-Generation therapeutic use, Antidepressive Agents, Tricyclic therapeutic use, Behavior, Animal drug effects, Behavior, Animal radiation effects, Brain drug effects, Brain physiopathology, Conditioning, Psychological radiation effects, Desipramine therapeutic use, Disease Models, Animal, Dose-Response Relationship, Radiation, Fear, Fluoxetine therapeutic use, Freezing Reaction, Cataleptic drug effects, Freezing Reaction, Cataleptic radiation effects, Male, Motor Activity radiation effects, Physical Stimulation methods, Rats, Rats, Sprague-Dawley, Reflex, Startle radiation effects, Swimming, Time Factors, Brain radiation effects, Depression therapy, Echo-Planar Imaging methods, Electromagnetic Fields

Abstract

Background: Evidence suggests that a novel type of magnetic resonance imaging (MRI) scan called echo planar magnetic resonance spectroscopic imaging (EP-MRSI) has mood-elevating actions in humans during the depressive phases of bipolar disorder. We examined whether a low-energy component of EP-MRSI (low-field magnetic stimulation [LFMS]) has antidepressant-like, locomotor-stimulating, or amnestic effects in rats., Methods: We examined the effects of LFMS on immobility in the forced swim test (FST) and activity within an open field in separate groups of rats. After exposure to forced swimming, rats received LFMS (three 20-min sessions at 1.5 G/cm and .75 V/m) before behavioral testing. We also examined the effects of LFMS on fear conditioning (FC), a learning paradigm that also involves exposure to stressful conditions., Results: Low-field magnetic stimulation reduced immobility in the FST, an antidepressant-like effect qualitatively similar to that of standard antidepressants. Low-field magnetic stimulation did not alter locomotor activity or FC., Conclusions: Low-field magnetic stimulation has antidepressant-like effects in rats that seem unrelated to locomotor-activating or amnestic effects. These findings raise the possibility that electromagnetic fields can affect the brain biology and might have physiologic consequences that offer novel approaches to therapy for psychiatric disorders. These same consequences might render MRI-based scans more invasive than previously appreciated.

Published

2005

20. Antidepressant-like effects of uridine and omega-3 fatty acids are potentiated by combined treatment in rats.

Author

Carlezon WA Jr, Mague SD, Parow AM, Stoll AL, Cohen BM, and Renshaw PF

Subjects

Animals, Antidepressive Agents pharmacology, Behavior, Animal drug effects, Depression diet therapy, Disease Models, Animal, Dose-Response Relationship, Drug, Drug Administration Routes, Drug Synergism, Drug Therapy, Combination, Immobility Response, Tonic drug effects, Male, Motor Activity drug effects, Rats, Rats, Sprague-Dawley, Reaction Time drug effects, Time Factors, Antidepressive Agents therapeutic use, Depression drug therapy, Fatty Acids, Omega-3 administration & dosage, Swimming psychology, Uridine therapeutic use

Abstract

Background: Brain phospholipid metabolism and membrane fluidity may be involved in the pathophysiology of mood disorders. We showed previously that cytidine, which increases phospholipid synthesis, has antidepressant-like effects in the forced swim test (FST) in rats, a model used in depression research. Because cytidine and uridine both stimulate synthesis of cytidine 5'-diphosphocholine (CDP-choline, a critical substrate for phospholipid synthesis), we examined whether uridine would also produce antidepressant-like effects in rats. We also examined the effects of omega-3 fatty acids (OMG), which increase membrane fluidity and reportedly have antidepressant effects in humans, alone and in combination with uridine., Methods: We first examined the effects of uridine injections alone and dietary supplementation with OMG alone in the FST. We then combined sub-effective treatment regimens of uridine and OMG to determine whether these agents would be more effective if administered together., Results: Uridine dose-dependently reduced immobility in the FST, an antidepressant-like effect. Dietary supplementation with OMG reduced immobility when given for 30 days, but not for 3 or 10 days. A sub-effective dose of uridine reduced immobility in rats given sub-effective dietary supplementation with OMG., Conclusions: Uridine and OMG each have antidepressant-like effects in rats. Less of each agent is required for effectiveness when the treatments are administered together.

Published

2005

21. Early developmental exposure to methylphenidate reduces cocaine-induced potentiation of brain stimulation reward in rats.

Author

Mague SD, Andersen SL, and Carlezon WA Jr

Subjects

Age Factors, Animals, Association Learning drug effects, Dose-Response Relationship, Drug, Electric Stimulation, Female, Male, Rats, Rats, Sprague-Dawley, Reinforcement, Psychology, Self Stimulation drug effects, Central Nervous System Stimulants pharmacology, Cocaine pharmacology, Long-Term Potentiation drug effects, Medial Forebrain Bundle physiology, Methylphenidate pharmacology

Abstract

Background: Methylphenidate (MPH) is prescribed for the treatment of attention and hyperactivity disorders. We showed previously that early developmental exposure to MPH in rats causes behavioral alterations during adulthood, including reduced cocaine reward in place conditioning studies. Here we examined if early MPH exposure alters the ability of cocaine to potentiate the rewarding effects of electrical stimulation of the medial forebrain bundle (MFB) using intracranial self-stimulation (ICSS)., Methods: Rats received MPH or saline during pre-adolescence (P20-35) and were implanted with MFB stimulating electrodes at adulthood (P60). Rats then were tested with cocaine in the ICSS paradigm., Results: Cocaine dose-dependently decreased ICSS thresholds in all rats, but the threshold-lowering effects of cocaine were smaller in rats exposed to MPH during pre-adolescence. There were no differences between groups in sensitivity to the rewarding effects of MFB stimulation itself., Conclusions: Early developmental exposure to MPH reduces the reward-related effects of cocaine in the ICSS paradigm. These results are consistent with previous studies in which early exposure to MPH reduced the ability of cocaine to establish conditioned place preferences, as well as the rewarding effects of sucrose and sexual behavior. Reduced sensitivity to these various types of reward may reflect general dysfunctions of brain reward systems.

Published

2005

22. Enduring behavioral effects of early exposure to methylphenidate in rats.

Author

Carlezon WA Jr, Mague SD, and Andersen SL

Subjects

Aging, Analysis of Variance, Animals, Animals, Newborn, Cocaine pharmacology, Conditioning, Psychological drug effects, Dopamine Uptake Inhibitors pharmacology, Dose-Response Relationship, Drug, Female, Immobilization, Male, Motor Activity drug effects, Rats, Rats, Sprague-Dawley, Reaction Time drug effects, Swimming, Time Factors, Behavior, Animal drug effects, Central Nervous System Stimulants pharmacology, Methylphenidate pharmacology

Abstract

Background: Methylphenidate (MPH) is a stimulant prescribed for the treatment of attention-deficit/hyperactivity disorder (ADHD). Stimulant drugs can cause enduring behavioral adaptations, including altered drug sensitivity, in laboratory animals. We examined how early developmental exposure to stimulants affects behavior in several rodent models., Methods: Rats received MPH or cocaine during preadolescence (P20-35). Behavioral studies began during adulthood (P60). We compared how early exposure to MPH and cocaine affects sensitivity to the rewarding and aversive properties of cocaine using place conditioning. We also examined the effects of early exposure to MPH on depressive-like signs using the forced swim test, and habituation of spontaneous locomotion, within activity chambers., Results: In place-conditioning tests, early exposure to MPH or cocaine each made moderate doses of cocaine aversive and high doses less rewarding. Early MPH exposure also caused depressive-like effects in the forced swim test, and it attenuated habituation to the activity chambers., Conclusions: Early exposure to MPH causes behavioral changes in rats that endure into adulthood. Some changes (reduced sensitivity to cocaine reward) may be beneficial, whereas others (increases in depressive-like signs, reduced habituation) may be detrimental. The effects of MPH on cocaine-related behaviors may be a general consequence of early stimulant exposure.

Published

2003