1. Long-term effects of early social isolation in Macaca mulatta: changes in dopamine receptor function following apomorphine challenge
- Author
-
Mark H. Lewis, John P. Gluck, Michael F. Keresztury, Alan J. Beauchamp, and Richard B. Mailman
- Subjects
medicine.medical_specialty ,Time Factors ,Apomorphine ,Dopamine ,Central nervous system ,Social Environment ,Receptors, Dopamine ,Cerebrospinal fluid ,Internal medicine ,medicine ,Animals ,Social isolation ,Molecular Biology ,Blinking ,Dose-Response Relationship, Drug ,General Neuroscience ,Homovanillic Acid ,Hydroxyindoleacetic Acid ,Macaca mulatta ,Stereotypy (non-human) ,Monoamine neurotransmitter ,Endocrinology ,medicine.anatomical_structure ,Social deprivation ,Dopamine receptor ,Macaca ,Neurology (clinical) ,medicine.symptom ,Stereotyped Behavior ,Psychology ,Neuroscience ,Developmental Biology ,medicine.drug - Abstract
The hypothesis that early social isolation results in long-term alterations in dopamine receptor sensitivity was tested using older adult rhesus monkeys. Isolated and control monkeys were challenged with apomorphine (0.1 and 0.3 mg/kg), and the drug effects on spontaneous blink rate, stereotyped behavior, and self-injurious behavior were quantified using observational measures. Monoamine metabolites were quantified from cisternal CSF by HPLC-EC, prior to pharmacological challenge. Isolated and control monkeys did not differ in CSF concentrations of HVA, 5-HIAA, or MHPG. At the higher dose, apomorphine significantly increased the rate of blinking, the occurrence of whole-body stereotypies, and the intensity of stereotyped behavior (as measured by observer ratings) in isolated monkeys. The frequency of occurrence of self-injurious behavior was too low to allow for meaningful comparisons. These significant differences in response to apomorphine challenge support the hypothesis that long-term or permanent alterations in dopamine receptor sensitivity, as assessed by drug challenge, are a consequence of early social deprivation.
- Published
- 1990