myosmine and anatabine

Recent studies in rodents suggest that non-nicotine constituents of tobacco smoke (e.g., minor tobacco alkaloids) may promote tobacco consumption-either through their own pharmacological effects or by augmenting the effects of nicotine. However, there is scant information on the behavioral pharmacology of minor tobacco alkaloids in primate species.. The present studies were conducted to determine whether the minor tobacco alkaloids nornicotine, anabasine, anatabine, myosmine, and cotinine exhibit nicotine-like behavioral effects in squirrel monkeys.. Initial experiments were conducted to determine the effects of nicotine (0.032-1.0 mg/kg) and the minor tobacco alkaloids nornicotine (1-1.8 mg/kg), anabasine (0.1-1.0 mg/kg), anatabine (10-32 mg/kg), myosmine (0.32-1.8 mg/kg), and cotinine (10-180 mg/kg) on food-maintained performance (n = 4). Next, the ability of tobacco alkaloids to substitute for the α4β2-selective nicotinic agonist (+)-epibatidine in drug discrimination experiments was evaluated in a separate group of monkeys (n = 4).. Results show that nicotine and each minor tobacco alkaloid except cotinine (a) produced dose-related decreases in food-maintained responding; (b) substituted for (+)-epibatidine and, in additional experiments, produced additive effects when combined with nicotine; (c) induced emesis or tremor at doses that reduced food-maintained responding and had (+)-epibatidine-like discriminative-stimulus effects; and (d) based on correlation with reported receptor binding affinities, likely produced their behavioral effects through α4β2 receptor mechanisms.. Selected minor tobacco alkaloids have nicotinic-like effects that may contribute to tobacco consumption and addiction.

Topics: Alkaloids; Anabasine; Animals; Behavior, Addictive; Behavior, Animal; Cotinine; Dose-Response Relationship, Drug; Male; Nicotiana; Nicotine; Pyridines; Saimiri; Smoke

While nicotine has been established as the primary addictive drug that promotes tobacco use, recent peer-reviewed studies suggest that tobacco smoke contains additional chemical constituents that may have addictive potential. Additional research is necessary to determine the addictive potential of these tobacco constituents individually and in combination with tobacco smoke condensate; however, the behaviorally effective constituent doses necessary to conduct such studies are unclear. The primary objective of this study was to conduct behavioral studies in adult rats to determine the relevant behaviorally effective doses of the tobacco constituents, cotinine, myosmine, and anatabine to be used in future studies assessing the addictive potential of these compounds.. Separate groups of adult male Sprague Dawley rats were treated with vehicle, nicotine, or various doses of cotinine, mysomine, or anatabine. Effects on locomotor activity were measured in 10-min bins for 60min.. Nicotine (0.8mg/kg) produced a biphasic effect on locomotor activity, with hypoactivity during the first 10min and hyperactivity at 40-50min. In contrast, cotinine (0.1mg/kg) and myosmine (10-50mg/kg) decreased activity without a later increase. Anatabine significantly increased locomotor activity at 1mg/kg, but decreased it at 10mg/kg. Prominent effects on overt behavior were observed at anatabine doses of 10mg/kg and above.. Nicotine, cotinine, myosmine, and anatabine produced distinct time- and dose-dependent patterns of effects on locomotor activity. Results from the study will aid in the selection of relevant doses for future studies assessing the addictive potential of these non-nicotine tobacco constituents.

Topics: Alkaloids; Animals; Cotinine; Dose-Response Relationship, Drug; Male; Motor Activity; Nicotiana; Nicotine; Pyridines; Rats; Rats, Sprague-Dawley

Insurance agencies might request laboratories to differentiate whether a deceased has been a smoker or not to decide about refunding of his nonsmoker rate. In this context, the question on a solid proof of tobacco alkaloids and major metabolites in tissues came up. Currently, an appropriate assay is still lacking to analyze tissue distribution in smokers or nonsmokers. Nicotine (NIC), nornicotine (NNIC), anatabine (ATB), anabasine (ABS), and myosmine (MYO) are naturally occurring alkaloids of the tobacco plant; most important phase I metabolites of NIC are cotinine (COT), norcotinine (NCOT), trans-3'-hydroxycotinine (HCOT), nicotine-N'-oxide (NNO), and cotinine-N-oxide (CNO). An analytical assay for their determination was developed and applied to five randomly selected autopsy cases.. Homogenates using 500 mg aliquots of tissue samples were analyzed by liquid chromatography/tandem mass spectrometry following solid phase extraction. The method was validated according to current international guidelines.. NIC, COT, NCOT, ABS, ATB, and HCOT could be detected in all tissues under investigation. Highest NIC concentrations were observed in the lungs, whereas highest COT concentrations have been found in the liver. MYO was not detectable in any of the tissues under investigation.. The assay is able to adequately separate isobaric analyte pairs such as NIC/ABS/NCOT and HCOT/CNO thus being suitable for the determination of tobacco alkaloids and their phase I metabolites from tissue. More autopsy cases as well as corresponding body fluids and hair samples will be investigated to differentiate smokers from nonsmokers.

Topics: Alkaloids; Anabasine; Animals; Brain Chemistry; Cattle; Chickens; Chromatography, Liquid; Ganglionic Stimulants; Humans; Liver; Lung; Muscle, Skeletal; Nicotiana; Nicotine; Pyridines; Smoking; Solid Phase Extraction; Swine; Tandem Mass Spectrometry; Tissue Distribution

While nicotine is the primary addictive compound in tobacco, other tobacco constituents including minor alkaloids (e.g., nornicotine, anabasine) may also contribute to tobacco addiction by mimicking or enhancing the effects of nicotine. Further evaluating the behavioral effects of minor alkaloids is essential for understanding their impact on tobacco addiction and informing development of tobacco product standards by the FDA.. This study compared the addiction-related effects of nicotine and the minor alkaloids nornicotine, anabasine, myosmine, anatabine, and cotinine on intracranial self-stimulation (ICSS) thresholds in rats.. Acute injection of nicotine produced reinforcement-enhancing (ICSS threshold-decreasing) effects at low to moderate doses, and reinforcement-attenuating/aversive (ICSS threshold-increasing) effects at high doses. Nornicotine and anabasine produced similar biphasic effects on ICSS thresholds, although with lower potency compared to nicotine. Myosmine only elevated ICSS thresholds at relatively high doses, while anatabine and cotinine did not influence ICSS thresholds at any dose. None of the alkaloids significantly influenced ICSS response latencies, indicating a lack of nonspecific motoric effects.. These findings indicate that some minor tobacco alkaloids can either fully (nornicotine, anabasine) or partially (myosmine) mimic nicotine's addiction-related effects on ICSS, albeit at reduced potency. These findings emphasize the need for further study of the abuse potential of minor alkaloids, including evaluation of their effects when combined with nicotine and other tobacco constituents to better simulate tobacco exposure in humans. Such work is essential for informing FDA regulation of tobacco products and could also lead to the development of novel pharmacotherapies for tobacco addiction.

Topics: Alkaloids; Anabasine; Animals; Brain; Cotinine; Male; Nicotine; Pyridines; Rats; Self Stimulation