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Determination of the Rewarding Capacity of Edible and Injected Delta-9-Tetrahydrocannabinol in Adolescent and Adult MiceSmoker, Michael P. 05 1900 (has links)
Indiana University-Purdue University Indianapolis (IUPUI) / Cannabis (and its main psychoactive component, THC) is one of the most widely-used drugs in the world, and recent expansion of its legal status has made it available in a variety of formulations and at a potency unrivaled in history. While its medicinal properties are gaining scientific support, so too is its potential to lead to abuse and dependence. Both initiation of cannabis use and frequent cannabis use are most prevalent in adolescence, and compared to adults, cannabis use by adolescents is associated with a greater likelihood of developing cannabis dependence and cannabis use disorder. Given the ethical limitations surrounding research that provides cannabis to non-users or non-adults, animal models of drug use can be valuable tools for the study of causes and consequences related to drug use, as well as allowing for investigating brain mechanisms underlying these factors. However, only recently have models in which animals reliably use cannabis (THC) at levels above its respective vehicle and at levels which produce consistent behavioral and physiological effects become available, and in no case has age-related differences in this use been examined. Thus, one goal of the current study was to directly compare the self-administration of edible THC (a route of administration used by humans and a formulation increasing in popularity) between adolescent and adult mice. Adolescents also appear to be differentially sensitive to various effects of several classes of drugs, and they have been shown to be less sensitive to the aversive effects of cannabis, thereby putting them at greater risk for elevated and continued use. Evidence also suggests that, in addition to the risk associated with adolescent cannabis use, having initial positive subjective experiences resulting from its use is a strong predictor of subsequent cannabis dependence. Thus, the second goal of the current study was to use the place conditioning paradigm to examine the reward- (or aversion-) inducing properties of THC in adolescent and adult C57BL/6J mice, using both the traditional experimenter-administered THC (via injection) as well as edible THC self-administration. Prior to initiating these THC studies, sensitivity of the place conditioning procedure to age-related differences in drug-induced reward was validated using cocaine, yielding locomotor stimulation in both ages and a decreased sensitivity to cocaine’s rewarding properties in adolescent mice. When provided limited access to edible THC dough in doses ranging from 0.0 to 6.0 mg/kg, mice showed a dose-dependent reduction in consumption across access sessions, and this reduction was more rapid in adult mice at the highest doses, suggesting that adolescent mice might have been less sensitive to its aversive properties. These same mice, as well as a separate group of mice receiving injection (also 0.0 to 6.0 mg/kg THC), were given place conditioning sessions, alternating between THC dough and control dough or THC injection and vehicle injection, for 6 days per week and were tested once per week across a total of 3 weeks. Mice conditioned using edible THC showed a neutral response (neither reward nor aversion) at all doses. However, mice conditioned using injected THC showed a conditioned place aversion to the highest dose, which was more pronounced in adult mice. Interestingly, in mice self-administering edible THC, the dose of THC consumed was related to the outcome of place conditioning, such that a conditioned place preference was observed for adult mice which shifted their consumption of 3.0 mg/kg edible THC downward relative to those mice with full consumption of 3.0 mg/kg, and for adolescent mice which had the highest degree of consumption of 6.0 mg/kg edible THC relative to those mice with the lowest consumption of 6.0 mg/kg. Furthermore, initial place preference outcomes at the individual level at test 1 predicted subsequent doses of edible THC consumed, suggesting mice adjust their self-administration of edible THC based on the subjective experience it produces. Besides its impact in place conditioning, THC also had differential effects on body weight and locomotor activity based on age and route of administration. Collectively, this project demonstrates that adolescent mice are less sensitive to the hedonic properties of both cocaine and THC, and that differences in edible THC self-administration between ages, and between individuals within an age, are likely related the subjective experience of its rewarding and aversive properties.
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NICOTINE AND METHYLPHENIDATE CHORNIC EXPOSURE ON ADULT CANNABINOID RECEPTOR AGONIST (CP 55,940) PLACE CONDITIONING IN MALE RATSPlant, Christopher P 01 June 2016 (has links)
A problematic connection has been reported between those who use nicotine related products alone or in combination with ADHD medications, like methylphenidate (MPH), in late childhood or early adolescence and the increased likelihood of later marijuana abuse in adulthood. Pre-clinical studies have found that the use of nicotine during the early adolescence period produces enduring changes to the endocannabinoid system in the brain. Since CB agonists, like marijuana, exert their effect through the eCB system, it is possible that early nicotine use may alter the rewarding nature of CB agonists in adulthood. In addition, MPH has also been shown to increase nicotine self-administration and abuse related behaviors of nicotine in rats. Thus, the current study consisted of two experiments looking at the effects of early nicotine and methylphenidate exposure on adult CB-agonist place conditioning in rats. In the first experiment, rats were pre-exposed to either saline or nicotine (0.16, 0.32, or 0.64 mg/kg) from PD 31 to PD 40. On PD 60, rats began a 13-day biased CPP procedure with the CB agonist, CP 55,940 (10, 20 or 30 μg/kg), or vehicle. No significant group differences were found, suggesting that early nicotine exposure does not influence the rewarding nature of CB agonists. Additional individual subgroup comparisons were conducted to determine if any subgroups significantly differed from 0 or no mean change in preference from preconditioning to testing. These analyses revealed that rats pre-exposed to the moderate (0.32 mg/kg) dose of nicotine showed a significant aversion to the high (30 μg/kg) dose of CP 55,940, suggesting that early nicotine exposure may reduce the rewarding nature of CB agonists in adulthood. In the second experiment, rats were pre-exposed to either saline or MPH (0.5, 2, 0r 5 mg/kg) from PD 21 to PD 30. Similar to the first experiment, rats began a 13-day biased CPP procedure on PD 60 with CP 55,940 (10, 20 or 30 μg/kg) or vehicle. Rats conditioned with the moderate (20 μg/kg) dose of CP 55,940 showed a significant preference for the CB agonist as compared to rats conditioned with the high (30 μg/kg) dose of CP 55,940. CP 55,940 exposed rats did not significantly differ from control rats. There was no significant effect of MPH or a MPH x CP 55,940 interaction, suggesting that early MPH exposure does not alter the rewarding nature of CB agonists in adulthood. Together these findings suggest that early nicotine, but not MPH, exposure may influence the rewarding nature of CB agonists in adulthood, suggesting an additional risk factor of early nicotine use. However, future studies should evaluate the effects of persistent nicotine and MPH exposure starting in early adolescence or childhood through adulthood to determine whether the effects of nicotine and MPH are altered if use is continued into adulthood.
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Differential behavioral effects of ketamine between adolescent and adult Sprague-Dawley ratsGreenwood, Maria A. 06 May 2013 (has links)
The dissociative anesthetic ketamine has been subject to growing abuse worldwide, particularly in adolescents. This project compared the effects of ketamine in conditioned place preference and intravenous self-administration in adolescent (PND 28-50) and adult (>PND70) Sprague-Dawley rats. Cocaine served as a positive control. In CPP, adolescents demonstrated preferences for ketamine, while adults developed an aversion. In the self-administration procedure, adults acquired the behavior more rapidly, but there was no difference in the percentage of subjects reaching acquisition nor in responding under a progressive ratio schedule for either drug. The CPP results suggest that adolescents have a greater sensitivity to the rewarding and tolerance to the aversive effects of ketamine. The divergent results for ketamine in the adults may reflect differences in the two procedures. However, because cocaine produced only hedonic effects in both age groups, it also suggests unique characteristics of ketamine and differences in its effects based on age.
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Activation of EPAC Inhibits the Aquisition of Nucleus Accumbens Amphetamine Place Preference in a Dose-Dependent Manner in RatsPark, Sung Woo (Calvin) 28 April 2008 (has links)
Reward-related learning occurs when previously neutral stimuli acquires an enhanced ability to elicit approach and other responses. Studies in the past have shown that dopamine receptor-mediated 3’,5’-cyclic adenosine monophosphate (cAMP)-dependent intracellular signalling is important for reward-related learning. Until recently, cAMP-dependent protein kinase (PKA) was the only known signalling molecule that was activated by cAMP. However, it has been discovered that another enzyme, exchange protein directly activated by cAMP (Epac), is also activated by cAMP. Thus, it is possible that cAMP mediates reward-related learning by an Epac-dependent signalling pathway. The present study used a conditioned place preference (CPP) paradigm to investigate whether Epac is involved in the acquisition of reward-related learning. Bilateral injections of amphetamine (20 µg/0.5μl/side) into the nucleus accumbens (NAc) have been shown in previous studies to reliably produce a CPP. Thus, amphetamine (20 µg) and Sp-adenosine 3’,5’-cyclic monophosphorothioate triethylamanine (Sp-cAMPS) (0.1, 1.0, 10, 15, 20 µg), an agent that activates both PKA and Epac, or amphetamine (20 µg) and 8-(4-chlorophenylthio)-2’-O-methyladenosine-3’,5’-cyclic monophosphate (8-pCPT) (0.73, 1.27, 1.45, 2.89, 5.78, 11.56 µg), an agent that selectively activates Epac, were co-injected into NAc to determine their effects on the acquisition of CPP. Results showed that 8-pCPT (1.45 µg), but not lower or higher doses, inhibited CPP. Sp-cAMPS (0.1, 15, 20 µg) also inhibited CPP, replicating the results of previous studies. The results implicate Epac in the acquisition of reward-related learning. / Thesis (Master, Neuroscience Studies) -- Queen's University, 2008-04-25 13:29:37.857
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