Enduring Changes in Brain and Behavior Produced by Chronic Amphetamine Administration: a Review and Evaluation of Animal Models of Amphetamine Psychosis
Authors
Affiliations
Some people who repeatedly use stimulant drugs, such as amphetamine (AMPH), develop an AMPH-induced psychosis that is similar to paranoid schizophrenia. There has been, therefore, considerable interest in characterizing the effects of chronic stimulant drug treatment on brain and behavior in non-human animals, and in developing an animal model of AMPH psychosis. A review of this literature shows that in non-human animals chronic AMPH treatment can produce at least two different syndromes, and both of these have been proposed as animal models of AMPH psychosis. The first syndrome is called 'AMPH neurotoxicity', and is produced by maintaining elevated brain concentrations of AMPH for prolonged periods of time. AMPH neurotoxicity is characterized by what has been termed 'hallucinatory-like' behavior, which occurs in association with brain damage resulting in the depletion of striatal DA and other brain monoamines. The second syndrome is called 'behavioral sensitization', and is produced by the repeated intermittent administration of lower doses of AMPH. Behavioral sensitization is characterized by a progressive and enduring enhancement in many AMPH-induced behaviors, and is not accompanied by brain damage or monoamine depletion. It is argued that the changes in the brain and behavior associated with the phenomenon of behavioral sensitization provide a better 'model' of AMPH psychosis than those associated with AMPH neurotoxicity. Much of the review involves a critical analysis of hypotheses regarding the biological basis of behavioral sensitization. Research on this question has focused on mesotelencephalic DA systems, and suggestions that behavioral sensitization is accompanied by: an increase in postsynaptic DA receptors; an increase in DA synthesis; an increase in DA utilization and/or release; and a decrease in DA autoreceptors, are evaluated. It is concluded that there is not convincing evidence for an increase in postsynaptic DA receptors or in DA synthesis in animals sensitized to AMPH. In contrast, there is strong evidence to support the notion that behavioral sensitization is due to enhanced mesotelencephalic DA release, especially upon re-exposure to the drug. The evidence that this enhancement in DA release is due to autoreceptor subsensitivity was found to be equivocal, and therefore other hypotheses should be entertained. Lastly, evidence is discussed in support of the idea that behavioral sensitization is not unique to the psychopharmacology of stimulant drugs, but may be produced by many environmental stimuli that directly or indirectly activate brain catecholamine systems.(ABSTRACT TRUNCATED AT 400 WORDS)
The Use of Event-Related Potentials in the Study of Schizophrenia: An Overview.
Crown L, Featherstone R, Sobell J, Parekh K, Siegel S Adv Neurobiol. 2024; 40:285-319.
PMID: 39562449 DOI: 10.1007/978-3-031-69491-2_11.
Krupa H, Gearhardt A, Lewandowski A, Avena N Brain Sci. 2024; 14(10).
PMID: 39451967 PMC: 11506718. DOI: 10.3390/brainsci14100952.
Worhunsky P, Mignosa M, Gallezot J, Pittman B, Nabulsi N, Stryjewski A Biol Psychiatry. 2024; 97(6):651-658.
PMID: 39395473 PMC: 11839384. DOI: 10.1016/j.biopsych.2024.09.028.
The Incentive-Sensitization Theory of Addiction 30 Years On.
Robinson T, Berridge K Annu Rev Psychol. 2024; 76(1):29-58.
PMID: 39094061 PMC: 11773642. DOI: 10.1146/annurev-psych-011624-024031.
Ghazvini H, Tirgar F, Khodamoradi M, Seyedhosseini Tamijani S, Niknamfar S, Akbari E Basic Clin Neurosci. 2024; 14(5):605-614.
PMID: 38628835 PMC: 11016879. DOI: 10.32598/bcn.2022.2297.1.