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Appropriate animal models are critical to conduct translational studies of human disorders without variables that can confound clinical studies. Such analytic methods as patch-clamp electrophysiological and voltammetric recordings of neurons in brain slices require living brain tissue. In order to obtain viable tissue from nonhuman primate brains, tissue collection methods must be designed to preserve cardiovascular and respiratory functions for as long as possible. This paper describes a method of necropsy that has been used in three species of monkeys that satisfies this requirement. At necropsy, animals were maintained under a deep surgical plane of anesthesia while a craniotomy was conducted to expose the brain. Following the craniotomy, animals were perfused with ice-cold, oxygenated artificial cerebrospinal fluid to displace blood and to reduce the temperature of the entire brain. The brain was removed within minutes of death and specific brain regions were immediately dissected for subsequent in vitro electrophysiology or voltammetry experiments. This necropsy method also provided for the collection of tissue blocks containing all brain regions that were immediately frozen and stored for subsequent genomic, proteomic, autoradiographic and histological studies. An added benefit from the design of this necropsy method is that all major peripheral tissues were also collected and are now being utilized in a wide range of genomic, biochemical and histological assays. This necropsy method has resulted in the establishment and growth of a nonhuman primate alcohol tissue bank designed to distribute central nervous system and peripheral tissues to the larger scientific community.

Rationale Intermittent delivery of an important commodity (e.g., food pellets) generates excessive behaviors as an adjunct to the schedule of reinforcement (adjunctive behaviors) that are hypothesized to be due to conflict between engaging and escaping a situation where reinforcement is delivered, but at suboptimal rates. Objectives This study characterized the endocrine correlates during schedule-induced polydipsia of water and ethanol using a longitudinal approach in non-human primates. Methods Plasma adrenocorticotropic hormone (ACTH) and cortisol were measured in samples from awake cynomolgus monkeys ( Macaca fascicularis , 11 adult males) obtained at the onset, mid-day, and offset of their 12-h light cycle. The monkeys were induced to drink water and ethanol (4 %  w / v , in water) using a fixed time (FT) 300-s interval schedule of pellet delivery. The induction fluid changed every 30 sessions in the following order: water, 0.5 g/kg ethanol, 1.0 g/kg ethanol, and 1.5 g/kg ethanol. Following induction, ethanol and water were concurrently available for 22 h/day. Results The FT 300-s schedule gradually increased ACTH, but not cortisol, during water induction to a plateau sustained throughout ethanol induction in every monkey. Upon termination of the schedule, ACTH decreased to baseline and cortisol below baseline. Diurnal ACTH and cortisol were unrelated to the dose of ethanol, but ACTH rhythm flattened at 0.5 g/kg/day and remained flattened. Conclusions The coincidence of elevated ACTH with the initial experience of drinking to intoxication may have altered the mechanisms involved in the transition to heavy drinking.

Early childhood stress is a risk factor for the development of substance-abuse disorders. A nonhuman primate model of early life stress, social impoverishment through nursery-rearing rather than mother-rearing, has been shown to produce increased impulsive and anxiety-like behaviors, cognitive and motor deficits, and increased alcohol consumption. These behavioral changes have been linked to changes in cerebrospinal fluid (CSF) levels of 5-hydroxyindoleacetic acid (5-HIAA), a serotonin (5-HT) metabolite. The effects of different rearing conditions on ethanol drinking and three measures of 5-HT function in the central nervous system were evaluated, including CSF 5-HIAA levels and tissue levels of 5-HT and 5-HIAA in brain samples. Brain samples were taken from the dorsal caudate, putamen, substantia nigra (SN) pars reticulata, SN pars compacta and hippocampus. There was a clear effect of rearing condition on the 5-HT system. Overall 5-HIAA and 5-HIAA/5-HT ratio measures of 5-HT turnover were significantly lower in nursery reared compared to mother-reared animals. In addition, there was a strong within-subject correlation between CSF and brain tissue 5-HIAA levels. Ethanol drinking was greater in nursery reared monkeys, consistent with previous results. These findings show that CSF 5-HIAA measurements can be used to predict brain 5-HT activity that may be involved in behavioral outcomes such as anxiety and alcohol consumption. Thus, CSF sampling may provide a minimally invasive test for neurochemical risk factors related to alcohol abuse.

The current study was designed to extend our knowledge of the N-methyl- D-aspartate (NMDA) glutamate receptor system in mediating the discriminative stimulus effects of ethanol in non-human primates. To characterize the discriminative stimulus effects of the NMDA uncompetitive antagonists dizocilpine, phencyclidine (PCP) and ketamine in male and female monkeys under different ethanol training conditions. Adult male ( n=8) and female ( n=9) cynomolgus monkeys ( Macaca fascicularis) were divided into four groups and trained to discriminate 1.0 g/kg ethanol ( n=8) versus water or 2.0 g/kg ethanol ( n=9) versus water in a 2 x 2 design with training dose and sex as main group factors. Ethanol (20% w/v) solutions were administered intragastrically (IG) and responding was maintained under a fixed ratio schedule of food reinforcement. Dose-response determinations for dizocilpine [IG and intramuscular (IM)], PCP (IM) and ketamine (IM) were made under two training intervals (30 and 60 min). Dizocilpine, PCP and ketamine dose-dependently substituted for ethanol in three of four training conditions, the notable exception being in males trained with 2.0 g/kg ethanol. Ethanol-like discriminative stimulus effects were greater with IM dizocilpine than with IG dizocilpine. At the lower ethanol training dose (1.0 g/kg), there were no sex differences in the ethanol-like discriminative stimulus effects of dizocilpine, PCP or ketamine, nor were there sex differences in the potencies to produce ethanol-like discriminative stimulus effects. Sex differences were readily apparent with the higher ethanol training dose (2.0 g/kg), with the NMDA ligands failing to substitute for ethanol in male monkeys, probably due to the rate-suppressive effects of these compounds. These data suggest that NMDA receptor-mediated activity is a component to the discriminative stimulus effects of ethanol in male and female nonhuman primates. However, NMDA uncompetitive antagonists were less likely to produce discriminative stimulus effects similar to a high ethanol training dose in male monkeys. In comparison to consistent substitution by GABA(A) positive modulators for ethanol, substitution patterns produced by NMDA uncompetitive antagonists suggest a less robust mediation of the ethanol discriminative stimulus through NMDA receptor systems in nonhuman primates.

The current study was designed to extend our knowledge of the GABA(A) receptor system in mediating discriminative stimulus effects of ethanol in non-human primates. To characterize the discriminative stimulus effects of ethanol, pentobarbital, midazolam, muscimol and morphine in male and female monkeys under different ethanol training conditions. Adult male (n=8) and female (n=10) Macaca fascicularis monkeys were divided into four groups and trained to discriminate 1.0 g/kg ethanol (n=8) versus water or 2.0 g/kg ethanol (n=10) versus water in a 2x2 design with training dose and sex as main group factors. Solutions were administered intragastrically (20% ethanol w/v) and responding was maintained under a fixed-ratio schedule of food reinforcement. Dose-response determinations of ethanol, pentobarbital, midazolam, muscimol and morphine were made under the training condition of 30 min pretreatment interval. The ethanol pretreatment interval in training sessions was then increased to 60 min and the effects of ethanol, pentobarbital and midazolam were redetermined. Training dose influenced the ED50 of ethanol to produce substitution under both pretreatment intervals and pentobarbital to produce substitution under the 30-min pretreatment training interval. There were no group differences in sensitivity to midazolam. The potency of the ligands to produce ethanol substitution was consistent across groups with midazolam>pentobarbital>ethanol. There were no sex differences in substitution of the ligands for ethanol. Blood ethanol concentrations at the onset of ethanol training sessions were higher in the 2.0 g/kg groups and under longer pretreatment times, but were not different on the basis of sex. Pentobarbital and midazolam produce ethanol-like discriminative stimulus effects in male and female cynomolgus monkeys suggesting a significant GABA(A) component mediating the behavioral effects of ethanol. There was limited evidence that training dose of ethanol influenced substitution pattern of the GABA(A) ligands in cynomolgus monkeys, unlike previous findings in rats. Finally, there appear to be no sex differences in the profile of GABA(A) mechanisms involved in the discriminative stimulus effects of ethanol.

Rationale: The current study was designed to extend our knowledge of the GABAA receptor system in mediating discriminative stimulus effects of ethanol in non-human primates. Objectives: To characterize the discriminative stimulus effects of ethanol, pentobarbital, midazolam, muscimol and morphine in male and female monkeys under different ethanol training conditions. Methods: Adult male (n=8) and female (n=10) Macaca fascicularis monkeys were divided into four groups and trained to discriminate 1.0 g/kg ethanol (n=8) versus water or 2.0 g/kg ethanol (n=10) versus water in a 2×2 design with training dose and sex as main group factors. Solutions were administered intragastrically (20% ethanol w/v) and responding was maintained under a fixed-ratio schedule of food reinforcement. Dose-response determinations of ethanol, pentobarbital, midazolam, muscimol and morphine were made under the training condition of 30 min pretreatment interval. The ethanol pretreatment interval in training sessions was then increased to 60 min and the effects of ethanol, pentobarbital and midazolam were redetermined. Results: Training dose influenced the ED50 of ethanol to produce substitution under both pretreatment intervals and pentobarbital to produce substitution under the 30-min pretreatment training interval. There were no group differences in sensitivity to midazolam. The potency of the ligands to produce ethanol substitution was consistent across groups with midazolam>pentobarbital>ethanol. There were no sex differences in substitution of the ligands for ethanol. Blood ethanol concentrations at the onset of ethanol training sessions were higher in the 2.0 g/kg groups and under longer pretreatment times, but were not different on the basis of sex. Conclusions: Pentobarbital and midazolam produce ethanol-like discriminative stimulus effects in male and female cynomolgus monkeys suggesting a significant GABAA component mediating the behavioral effects of ethanol. There was limited evidence that training dose of ethanol influenced substitution pattern of the GABAA ligands in cynomolgus monkeys, unlike previous findings in rats. Finally, there appear to be no sex differences in the profile of GABAA mechanisms involved in the discriminative stimulus effects of ethanol.