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Barbee BR, Gourley SL. Brain systems in cocaine abstinence-induced anxiety-like behavior in rodents: A review. ADDICTION NEUROSCIENCE 2022; 2:100012. [PMID: 37485439 PMCID: PMC10361393 DOI: 10.1016/j.addicn.2022.100012] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [Abstract] [Key Words] [Track Full Text] [Subscribe] [Scholar Register] [Indexed: 07/25/2023]
Abstract
Cocaine use disorder (CUD) is a significant public health issue that generates substantial personal, familial, and economic burdens. Still, there are no FDA-approved pharmacotherapies for CUD. Cocaine-dependent individuals report anxiety during withdrawal, and alleviation of anxiety and other negative affective states may be critical for maintaining drug abstinence. However, the neurobiological mechanisms underlying abstinence-related anxiety in humans or anxiety-like behavior in rodents are not fully understood. This review summarizes investigations regarding anxiety-like behavior in mice and rats undergoing cocaine abstinence, as assessed using four of the most common anxiety-related assays: the elevated plus (or its derivative, the elevated zero) maze, open field test, light-dark transition test, and defensive burying task. We first summarize available evidence that cocaine abstinence generates anxiety-like behavior that persists throughout protracted abstinence. Then, we examine investigations concerning neuropeptide, neurotransmitter, and neuromodulator systems in cocaine abstinence-induced anxiety-like behavior. Throughout, we discuss how differences in sex, rodent strain, cocaine dose and dosing strategy and abstinence duration interact to generate anxiety-like behavior.
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Affiliation(s)
- Britton R. Barbee
- Graduate Program in Molecular and Systems Pharmacology,
Emory University
- Department of Pediatrics, Emory University School of
Medicine; Yerkes National Primate Research Center
| | - Shannon L. Gourley
- Graduate Program in Molecular and Systems Pharmacology,
Emory University
- Department of Pediatrics, Emory University School of
Medicine; Yerkes National Primate Research Center
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2
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Lemos C, Salti A, Amaral IM, Fontebasso V, Singewald N, Dechant G, Hofer A, El Rawas R. Social interaction reward in rats has anti-stress effects. Addict Biol 2021; 26:e12878. [PMID: 31984611 PMCID: PMC7757251 DOI: 10.1111/adb.12878] [Citation(s) in RCA: 8] [Impact Index Per Article: 2.7] [Reference Citation Analysis] [Abstract] [Key Words] [Track Full Text] [Download PDF] [Figures] [Journal Information] [Subscribe] [Scholar Register] [Received: 10/11/2019] [Revised: 01/10/2020] [Accepted: 01/13/2020] [Indexed: 12/11/2022]
Abstract
Social interaction in an alternative context can be beneficial against drugs of abuse. Stress is known to be a risk factor that can exacerbate the effects of addictive drugs. In this study, we investigated whether the positive effects of social interaction are mediated through a decrease in stress levels. For that purpose, rats were trained to express cocaine or social interaction conditioned place preference (CPP). Behavioural, hormonal, and molecular stress markers were evaluated. We found that social CPP decreased the percentage of incorrect transitions of grooming and corticosterone to the level of naïve untreated rats. In addition, corticotropin-releasing factor (CRF) was increased in the bed nucleus of stria terminalis after cocaine CPP. In order to study the modulation of social CPP by the CRF system, rats received intracerebroventricular CRF or alpha-helical CRF, a nonselective antagonist of CRF receptors. The subsequent effects on CPP to cocaine or social interaction were observed. CRF injections increased cocaine CPP, whereas alpha-helical CRF injections decreased cocaine CPP. However, alpha-helical CRF injections potentiated social CPP. When social interaction was made available in an alternative context, CRF-induced increase of cocaine preference was reversed completely to the level of rats receiving cocaine paired with alpha-helical CRF. This reversal of cocaine preference was also paralleled by a reversal in CRF-induced increase of p38 MAPK expression in the nucleus accumbens shell. These findings suggest that social interaction could contribute as a valuable component in treatment of substance use disorders by reducing stress levels.
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Affiliation(s)
- Cristina Lemos
- Department of Psychiatry, Psychotherapy and Psychosomatics, Division of Psychiatry I Medical University Innsbruck Innsbruck Austria
| | - Ahmad Salti
- Institute of Molecular Biology University of Innsbruck Innsbruck Austria
| | - Inês M. Amaral
- Department of Psychiatry, Psychotherapy and Psychosomatics, Division of Psychiatry I Medical University Innsbruck Innsbruck Austria
| | - Veronica Fontebasso
- Department of Pharmacology and Toxicology University of Innsbruck Innsbruck Austria
| | - Nicolas Singewald
- Department of Pharmacology and Toxicology University of Innsbruck Innsbruck Austria
| | - Georg Dechant
- Institute for Neuroscience Medical University Innsbruck Innsbruck Austria
| | - Alex Hofer
- Department of Psychiatry, Psychotherapy and Psychosomatics, Division of Psychiatry I Medical University Innsbruck Innsbruck Austria
| | - Rana El Rawas
- Department of Psychiatry, Psychotherapy and Psychosomatics, Division of Psychiatry I Medical University Innsbruck Innsbruck Austria
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Duan S, Xie L, Zheng L, Huang J, Guo R, Sun Z, Xie Y, Lv J, Lin Z, Ma S. Long-term exposure to ephedrine leads to neurotoxicity and neurobehavioral disorders accompanied by up-regulation of CRF in prefrontal cortex and hippocampus in rhesus macaques. Behav Brain Res 2020; 393:112796. [PMID: 32634541 DOI: 10.1016/j.bbr.2020.112796] [Citation(s) in RCA: 8] [Impact Index Per Article: 2.0] [Reference Citation Analysis] [Abstract] [Key Words] [MESH Headings] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 01/31/2020] [Revised: 06/12/2020] [Accepted: 06/30/2020] [Indexed: 02/05/2023]
Abstract
Drug addiction continues to threaten the health and welfare of people worldwide, and ephedrine abuse is a serious drug problem in many areas of the world. Ephedrine toxicity is thought to induce behavioral effects primarily through actions on the central nervous system. The corticotropin-releasing factor (CRF) system plays an important role in regulating behavioral effects induced by addictive drugs, but whether CRF is related to ephedrine toxicity remains unclear. This study seeks to examine whether there is a correlation between the CRF and chronic ephedrine neurotoxicity. To this end, we established a chronic ephedrine (0.4-1.6 mg/kg/d) exposure model in rhesus macaques, assessed its effects on body weight and behavior, examined neuronal changes in the prefrontal cortex and hippocampus, and measured the CRF expression in the prefrontal cortex and hippocampus. After 8-weeks of exposure to ephedrine, the toxic effects of ephedrine included significant weight loss and induction of behavioral changes in rhesus macaques. In particular, in the modeling group, the abnormal behavioral changes mainly manifested as irritability and behavioral sensitization. Meanwhile, the histological abnormalities included neuronal morphological changes, pyknosis and irregular shapes of neurons in the prefrontal cortex and hippocampus. In addition, the expression levels of CRF mRNA and protein were increased in the prefrontal cortex and hippocampus of ephedrine-treated animals. In summary, the finding of this study indicated that ephedrine neurotoxicity can cause neuronal damage in cerebral cortex, which in turn can result in certain neurobehavioral abnormalities, and that CRF expression in prefrontal cortex and hippocampus is elevated in response to ephedrine exposure. These observations suggested that long-term exposure to ephedrine might be causing neurotoxicity and leading to neurobehavioral disorders accompanied by up-regulation of CRF in prefrontal cortex and hippocampus.
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Affiliation(s)
- Shouxing Duan
- Department of Pediatric Surgery, The First Affiliated Hospital of Shantou University Medical College, No. 57 Changping Road, Shantou, 515041, Guangdong, China; Shantou University Medical College, No. 22 Xinling Road, Shantou, 515041, Guangdong, China; Guangdong Key Laboratory of Medical Molecular Imaging, No. 57 Changping Road, Shantou, 515041, Guangdong, China
| | - Lei Xie
- Department of Radiology, The First Affiliated Hospital of Shantou University Medical College, No. 57 Changping Road, Shantou, 515041, Guangdong, China; Shantou University Medical College, No. 22 Xinling Road, Shantou, 515041, Guangdong, China; Guangdong Key Laboratory of Medical Molecular Imaging, No. 57 Changping Road, Shantou, 515041, Guangdong, China
| | - Lian Zheng
- Department of Pediatric Surgery, The First Affiliated Hospital of Shantou University Medical College, No. 57 Changping Road, Shantou, 515041, Guangdong, China
| | - JinZhuang Huang
- Department of Radiology, The First Affiliated Hospital of Shantou University Medical College, No. 57 Changping Road, Shantou, 515041, Guangdong, China; Shantou University Medical College, No. 22 Xinling Road, Shantou, 515041, Guangdong, China; Guangdong Key Laboratory of Medical Molecular Imaging, No. 57 Changping Road, Shantou, 515041, Guangdong, China
| | - RuiWei Guo
- Department of Radiology, The First Affiliated Hospital of Shantou University Medical College, No. 57 Changping Road, Shantou, 515041, Guangdong, China; Shantou University Medical College, No. 22 Xinling Road, Shantou, 515041, Guangdong, China; Guangdong Key Laboratory of Medical Molecular Imaging, No. 57 Changping Road, Shantou, 515041, Guangdong, China
| | - ZongBo Sun
- Department of Radiology, The First Affiliated Hospital of Shantou University Medical College, No. 57 Changping Road, Shantou, 515041, Guangdong, China; Shantou University Medical College, No. 22 Xinling Road, Shantou, 515041, Guangdong, China; Guangdong Key Laboratory of Medical Molecular Imaging, No. 57 Changping Road, Shantou, 515041, Guangdong, China
| | - Yao Xie
- Department of Radiology, The First Affiliated Hospital of Shantou University Medical College, No. 57 Changping Road, Shantou, 515041, Guangdong, China; Shantou University Medical College, No. 22 Xinling Road, Shantou, 515041, Guangdong, China; Guangdong Key Laboratory of Medical Molecular Imaging, No. 57 Changping Road, Shantou, 515041, Guangdong, China
| | - JunYao Lv
- Department of Forensic Medicine, Shantou University Medical College, No. 22 Xinling Road, Shantou, 515041, Guangdong, China
| | - ZhiRong Lin
- Department of Radiology, The First Affiliated Hospital of Shantou University Medical College, No. 57 Changping Road, Shantou, 515041, Guangdong, China; Shantou University Medical College, No. 22 Xinling Road, Shantou, 515041, Guangdong, China; Guangdong Key Laboratory of Medical Molecular Imaging, No. 57 Changping Road, Shantou, 515041, Guangdong, China
| | - Shuhua Ma
- Department of Radiology, The First Affiliated Hospital of Shantou University Medical College, No. 57 Changping Road, Shantou, 515041, Guangdong, China; Shantou University Medical College, No. 22 Xinling Road, Shantou, 515041, Guangdong, China; Guangdong Key Laboratory of Medical Molecular Imaging, No. 57 Changping Road, Shantou, 515041, Guangdong, China.
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4
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Kuhn BN, Kalivas PW, Bobadilla AC. Understanding Addiction Using Animal Models. Front Behav Neurosci 2019; 13:262. [PMID: 31849622 PMCID: PMC6895146 DOI: 10.3389/fnbeh.2019.00262] [Citation(s) in RCA: 83] [Impact Index Per Article: 16.6] [Reference Citation Analysis] [Abstract] [Key Words] [Grants] [Track Full Text] [Download PDF] [Journal Information] [Subscribe] [Scholar Register] [Received: 08/30/2019] [Accepted: 11/15/2019] [Indexed: 12/13/2022] Open
Abstract
Drug addiction is a neuropsychiatric disorder with grave personal consequences that has an extraordinary global economic impact. Despite decades of research, the options available to treat addiction are often ineffective because our rudimentary understanding of drug-induced pathology in brain circuits and synaptic physiology inhibits the rational design of successful therapies. This understanding will arise first from animal models of addiction where experimentation at the level of circuits and molecular biology is possible. We will review the most common preclinical models of addictive behavior and discuss the advantages and disadvantages of each. This includes non-contingent models in which animals are passively exposed to rewarding substances, as well as widely used contingent models such as drug self-administration and relapse. For the latter, we elaborate on the different ways of mimicking craving and relapse, which include using acute stress, drug administration or exposure to cues and contexts previously paired with drug self-administration. We further describe paradigms where drug-taking is challenged by alternative rewards, such as appetitive foods or social interaction. In an attempt to better model the individual vulnerability to drug abuse that characterizes human addiction, the field has also established preclinical paradigms in which drug-induced behaviors are ranked by various criteria of drug use in the presence of negative consequences. Separation of more vulnerable animals according to these criteria, along with other innate predispositions including goal- or sign-tracking, sensation-seeking behavior or impulsivity, has established individual genetic susceptibilities to developing drug addiction and relapse vulnerability. We further examine current models of behavioral addictions such as gambling, a disorder included in the DSM-5, and exercise, mentioned in the DSM-5 but not included yet due to insufficient peer-reviewed evidence. Finally, after reviewing the face validity of the aforementioned models, we consider the most common standardized tests used by pharmaceutical companies to assess the addictive potential of a drug during clinical trials.
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Affiliation(s)
| | - Peter W. Kalivas
- Department of Neuroscience, Medical University of South Carolina, Charleston, SC, United States
| | - Ana-Clara Bobadilla
- Department of Neuroscience, Medical University of South Carolina, Charleston, SC, United States
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5
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Fischer DK, Rice RC, Martinez Rivera A, Donohoe M, Rajadhyaksha AM. Altered reward sensitivity in female offspring of cocaine-exposed fathers. Behav Brain Res 2017; 332:23-31. [PMID: 28552600 DOI: 10.1016/j.bbr.2017.05.054] [Citation(s) in RCA: 29] [Impact Index Per Article: 4.1] [Reference Citation Analysis] [Abstract] [Key Words] [MESH Headings] [Grants] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 03/07/2017] [Revised: 04/23/2017] [Accepted: 05/24/2017] [Indexed: 12/25/2022]
Abstract
Recent rodent studies have demonstrated that parental cocaine exposure can influence offspring behavior, supporting the idea that environmental insults can impact subsequent generations. However, studies on the effects of paternal cocaine exposure are limited and multiple inconsistencies exist. In the current study, we behaviorally characterize the effects of paternal cocaine exposure in a C57BL/6J intergenerational mouse model. Male sires were administered cocaine hydrochloride (20mg/kg) or saline (0.01mL/g) once a day for 75days, and bred with drug naïve females twenty-four hours after the final injection. Offspring, separated by sex, were tested in a battery of behaviors. We found that paternal cocaine exposure altered sensitivity to the rewarding and stimulant effects of psychostimulants and natural reward (sucrose) in female offspring; female cocaine-sired offspring showed blunted cocaine preference using cocaine conditioned place preference (CPP) at a low dose (5mg/kg), but displayed similar preference at a higher dose (10mg/kg) compared to saline-sired controls. Additionally, cocaine-sired female offspring exhibited higher psychomotor sensitivity to cocaine (10mg/kg) and amphetamine (2mg/kg) and consumed more sucrose. Cocaine-sired males exhibited increased psychomotor effects of cocaine and amphetamine. Male offspring also displayed an anxiety-like phenotype. No effect of paternal cocaine exposure was observed on depressive-like, learning and memory or social behavior in male or female offspring. Collectively, our findings show that paternal, chronic cocaine exposure induces intergenerational behavioral effects in male and female offspring with greatest impact on sensitivity to psychostimulants and sucrose in females.
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Affiliation(s)
| | | | - Arlene Martinez Rivera
- Pediatric Neurology, Pediatrics, USA; Feil Family Brain and Mind Research Institute, Weill Cornell Medical College, New York, NY, USA
| | - Mary Donohoe
- Feil Family Brain and Mind Research Institute, Weill Cornell Medical College, New York, NY, USA; Burke Medical Research Institute, White Plains, NY, USA; Department of Cell and Developmental Biology, Weill Cornell Medical College, New York, NY, USA
| | - Anjali M Rajadhyaksha
- Pediatric Neurology, Pediatrics, USA; Feil Family Brain and Mind Research Institute, Weill Cornell Medical College, New York, NY, USA.
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6
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Turner CA, Flagel SB, Blandino P, Watson SJ, Akil H. Utilizing a unique animal model to better understand human temperament. Curr Opin Behav Sci 2017; 14:108-114. [PMID: 28966969 DOI: 10.1016/j.cobeha.2017.02.002] [Citation(s) in RCA: 10] [Impact Index Per Article: 1.4] [Reference Citation Analysis] [Abstract] [Key Words] [Grants] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Indexed: 12/28/2022]
Abstract
Individual differences in temperament are associated with psychopathology in humans. Moreover, the relationship between temperament and anxiety-, depression-, PTSD- and addiction-related behaviors can be modeled in animals. This review will highlight these relationships with a focus on individual differences in the response to stressors, fear conditioning and drugs of abuse using animals that differ in their response to a novel environment. We will discuss behavioral and neurobiological commonalities amongst these behaviors with a focus on the hippocampus and, in particular, growth factors as promising novel targets for therapeutic intervention.
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Affiliation(s)
- Cortney A Turner
- Molecular and Behavioral Neuroscience Institute, University of Michigan, Ann Arbor, MI. 48109
| | - Shelly B Flagel
- Molecular and Behavioral Neuroscience Institute, University of Michigan, Ann Arbor, MI. 48109
- Department of Psychiatry, University of Michigan, Ann Arbor, MI. 48109
| | - Peter Blandino
- Molecular and Behavioral Neuroscience Institute, University of Michigan, Ann Arbor, MI. 48109
| | - Stanley J Watson
- Molecular and Behavioral Neuroscience Institute, University of Michigan, Ann Arbor, MI. 48109
- Department of Psychiatry, University of Michigan, Ann Arbor, MI. 48109
| | - Huda Akil
- Molecular and Behavioral Neuroscience Institute, University of Michigan, Ann Arbor, MI. 48109
- Department of Psychiatry, University of Michigan, Ann Arbor, MI. 48109
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7
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Kummer KK, Hofhansel L, Barwitz CM, Schardl A, Prast JM, Salti A, El Rawas R, Zernig G. Differences in social interaction- vs. cocaine reward in mouse vs. rat. Front Behav Neurosci 2014; 8:363. [PMID: 25368560 PMCID: PMC4201146 DOI: 10.3389/fnbeh.2014.00363] [Citation(s) in RCA: 42] [Impact Index Per Article: 4.2] [Reference Citation Analysis] [Abstract] [Key Words] [Track Full Text] [Download PDF] [Figures] [Journal Information] [Subscribe] [Scholar Register] [Received: 08/08/2014] [Accepted: 10/02/2014] [Indexed: 12/29/2022] Open
Abstract
We previously developed rat experimental models based on the conditioned place preference (CPP) paradigm in which only four 15-min episodes of dyadic social interaction with a sex- and weight-matched male Sprague Dawley (SD) rat (1) reversed CPP from cocaine to social interaction despite continuing cocaine training, and (2) prevented the reacquisition/re-expression of cocaine CPP. In a concurrent conditioning schedule, pairing one compartment with social interaction and the other compartment with 15 mg/kg cocaine injections, rats spent the same amount of time in both compartments and the most rewarding sensory component of the composite stimulus social interaction was touch (taction). In the present study, we validated our experimental paradigm in C57BL/6 mice to investigate if our experimental paradigm may be useful for the considerable number of genetically modified mouse models. Only 71% of the tested mice developed place preference for social interaction, whereas 85% of the rats did. Accordingly, 29% of the mice developed conditioned place aversion (CPA) to social interaction, whereas this was true for only 15% of the rats. In support of the lesser likelihood of mice to develop a preference for social interaction, the average amount of time spent in direct contact was 17% for mice vs. 79% for rats. In animals that were concurrently conditioned for social interaction vs. cocaine, the relative reward strength for cocaine was 300-fold higher in mice than in rats. Considering that human addicts regularly prefer drugs of abuse to drug-free social interaction, the present findings suggest that our experimental paradigm of concurrent CPP for cocaine vs. social interaction is of even greater translational power if performed in C57BL/6 mice, the genetic background for most transgenic rodent models, than in rats.
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Affiliation(s)
- Kai K Kummer
- Experimental Psychiatry Unit, Medical University of Innsbruck Innsbruck, Austria
| | - Lena Hofhansel
- Experimental Psychiatry Unit, Medical University of Innsbruck Innsbruck, Austria
| | - Constanze M Barwitz
- Experimental Psychiatry Unit, Medical University of Innsbruck Innsbruck, Austria
| | - Aurelia Schardl
- Experimental Psychiatry Unit, Medical University of Innsbruck Innsbruck, Austria
| | - Janine M Prast
- Experimental Psychiatry Unit, Medical University of Innsbruck Innsbruck, Austria
| | - Ahmad Salti
- Experimental Psychiatry Unit, Medical University of Innsbruck Innsbruck, Austria
| | - Rana El Rawas
- Experimental Psychiatry Unit, Medical University of Innsbruck Innsbruck, Austria
| | - Gerald Zernig
- Experimental Psychiatry Unit, Medical University of Innsbruck Innsbruck, Austria ; Department of Psychology, University of Innsbruck Innsbruck, Austria
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