David H. Malin

Rodent model of nicotine abstinence syndrome

Few animals models are currently in use for the recognized clinical problem of nicotine dependence and abstinence. This study introduces a rapid and convenient model using the rat. Sixteen male rats were rendered nicotine dependent by 7 days of continuous subcutaneous infusion of either 3 mg/kg/day (n = 8) or 9 mg/kg/day (n = 8) nicotine tartrate salt; 8 control rats were infused with saline alone. Rats were observed for 15 min before, during, and after the drug infusion period using a tally sheet modified from a standard checklist of opiate abstinence signs. There were few signs observed in any group at baseline and at the end of the infusion period. However, nicotine-infused rats showed a significant, dose-related increase over the control group at 16 h after the end of infusion, largely subsiding by 40 h. The most frequently observed signs during withdrawals included: teeth-chattering/chews, writhes/gasps, ptosis, tremors/shakes, and yawns. A significant drop in locomotor activity and increase in weight gain following termination of nicotine infusion provided additional evidence of an abstinence syndrome. This syndrome was alleviated by SC administration of 0.4 mg/kg nicotine tartrate.

Blueberry supplemented diet: effects on object recognition memory and nuclear factor-kappa B levels in aged rats.

Abstract It has been reported that an antioxidant-rich, blueberry-supplemented rat diet may retard brain aging in the rat. The present study determined whether such supplementation could prevent impaired object recognition memory and elevated levels of the oxidative stress-responsive protein, nuclear factor-kappa B (NF-κB) in aged Fischer-344 rats. Twelve aged rats had been fed a 2% blueberry supplemented diet for 4 months prior to testing. Eleven aged rats and twelve young rats had been fed a control diet. The rats were tested for object recognition memory on the visual paired comparison task. With a 1-h delay between training and testing, aged control diet rats performed no better than chance. Young rats and aged blueberry diet rats performed similarly and significantly better than the aged control diet group. Levels of NF-κB in five brain regions of the above subjects were determined by western blotting assays. In four regions, aged control diet rats had significantly higher average NF-κB levels than young animals on the control diet. In four regions, aged blueberry diet rats had significantly lower levels of NF-κB than aged control diet rats. Normalized NF-κB levels (averaged across regions and in several individual regions) correlated negatively and significantly with the object memory scores.

A nicotine conjugate vaccine reduces nicotine distribution to brain and attenuates its behavioral and cardiovascular effects in rats.

Vaccination of animals to elicit drug-specific antibodies, or the passive transfer of such antibodies from other animals, can reduce the behavioral effects of drugs such as cocaine and heroin. To study the potential application of this approach to treating nicotine dependence, IgG was isolated from rabbits immunized with a nicotine-protein conjugate vaccine. Anesthetized rats received immune IgG containing nicotine-specific antibodies (Nic-IgG) or control-IgG i.v.. Thirty minutes later, rats received nicotine at 0.03 mg/kg i.v., equivalent on an mg/kg basis to the nicotine intake from two cigarettes by a smoker. Compared to control-IgG, Nic-IgG reduced the brain nicotine concentration in a dose-related manner (65% reduction at the highest IgG dose). Pretreatment with Nic-IgG also reduced the distribution to brain of five repeated doses of nicotine (equivalent to the nicotine intake from 10 cigarettes) administered over 80 min. To study blood pressure effects, rats received control-IgG or Nic-IgG 1 day prior to administering nicotine. Nicotine-induced systolic blood pressure increases were attenuated by Nic-IgG in a dose-related manner, and were almost completely blocked by the highest Nic-IgG dose. Pretreatment with Nic-IgG also completely prevented the nicotine-induced stimulation of locomotor activity observed in rats receiving control-IgG. Nic-IgG did not prevent locomotor activation from cocaine, demonstrating its specificity for nicotine. These data demonstrate that the administration of nicotine-specific antibodies can reduce or prevent some of the pharmacokinetic, cardiovascular, and behavioral consequences of nicotine in rats. Effects were observed at nicotine doses and nicotine serum concentrations equal to or exceeding those typically associated with nicotine exposure in cigarette smokers. A potential role for immunization in the treatment of nicotine dependence is suggested.

FMRF-NH2-like mammalian octapeptide: Possible role in opiate dependence and abstinence

Yang et al. have isolated from bovine brain an octapeptide, FLFQPQRF-NH2 (F-8-F-NH2), with certain antiopiate properties. Malin et al. previously found that ICV injection of this peptide could precipitate an opiate abstinence syndrome in dependent rats. RIA revealed significantly higher levels of F-8-F-NH2 immunoreactivity in CSF withdrawn from the cisterna magna of morphine-dependent rats as opposed to CSF withdrawn from sham-implanted controls. ICV infusion of IgG from antiserum against F-8-F-NH2 significantly reduced the number of abstinence signs subsequently precipitated by naloxone in morphine-dependent rats.

The nicotinic antagonist mecamylamine precipitates nicotine abstinence syndrome in the rat

Recently, a rodent model of nicotine abstinence syndrome has been developed based on observing the frequency of spontaneous behavioral signs following termination of continuous subcutaneous infusion of nicotine tartrate. In the present study, the nicotinic antagonist mecamylamine precipitated an abstinence syndrome in nicotine-dependent rats. Twelve rats were each infused for 7 days with 9 mg/kg per day nicotine tartrate in saline via Alzet osmotic minipumps; another 12 rats were shamoperated and remained nicotine-naive. Six rats from each group received 1 mg/kg mecamylamine in saline SC immediately before a 30-min observation, while the remaining six rats from each group received saline alone. Nicotine-infused rats receiving mecamylamine exhibited significantly more (P<0.01), overall abstinence signs than all other groups. In terms of categories of signs, they displayed significantly more gasps/writhes, teeth chatter/chews, shakes/tremors and ptosis. In a second experiment utilizing only nicotine-naive rats, a far higher dose of mecamylamine (5 mg/kg sc) induced a quasi-nicotine abstinence syndrome. The results provide further validation for this rodent model of nicotine abstinence syndrome.

FMRF-NH2-like mammalian peptide precipitates opiate-withdrawal syndrome in the rat

Yang et al. (14) have isolated from mammalian brain an octapeptide FLFQPQRF-NH2 (F-8-F-NH2) with certain antiopiate properties. Third ventricular injection of 2 micrograms of this peptide together with the aminopeptidase inhibitor bestatin precipitated an opiate-withdrawal syndrome in morphine-dependent but not in nondependent rats. Third ventricular injection in nondependent rats of 15 micrograms of the peptide together with bestatin induced a morphine-withdrawal-like behavioral syndrome. This syndrome was not produced by injection of bestatin or saline vehicle alone and was preventable by injection of 3.5 mg/kg morphine sulphate SC.

Naloxone precipitates nicotine abstinence syndrome in the rat.

Recently, a rodent model of nicotine abstinence syndrome has been developed based on continuous subcutaneous infusion of nicotine tartrate and observing the frequency of spontaneous behavioral signs following termination of infusion. The observed signs closely resemble those commonly seen in rat opiate abstinence syndrome, raising the possibility that there is an endogenous opioid component in nicotine dependence. The present study demonstrates that the opiate antagonist naloxone can precipitate an abstinence syndrome in nicotine-dependent rats. Fourteen rats were infused for 7 days with 9 mg/kg/day nicotine tartrate in saline via an Alzet osmotic minipump. Fourteen rats were sham-operated and remained nicotine-naive. Half of each group received 4.5 mg/kg naloxone SC immediately before a “blind” 15-min observation, while the other half received saline alone. ANOVA revealed significant nicotine infusion, naloxone injection and interaction effects. Post-hoc analysis showed that the nicotine-infused rats injected with naloxone had significantly more signs than all other groups (P<0.01). In a second experiment, 2 mg/kg morphine sulfate SC produced a significant (P<0.01) 91.2% reduction of spontaneous abstinence signs observed 21 h after termination of nicotine infusion. These results are consistent with the hypothesized endogenous opioid component in nicotine dependence and abstinence syndrome.

Nicotine dependence: studies with a laboratory model.

Simple, rapid preclinical models of nicotine physical dependence and abstinence syndrome are needed to identify underlying neurobiological mechanisms and screen potential therapies. One such model induces dependence by 7 days of continuous subcutaneous nicotine infusion in the rat. Abstinence is initiated through termination of infusion or injection of nicotinic antagonist drugs. The result is an abstinence syndrome involving a pattern of behaviors somewhat resembling opiate abstinence in the rat as well as weight gain and depressed locomotor activity. The model has met a number of validity criteria and its essential features have been replicated in several laboratories. Several research groups have modified or extended the model by measuring emotional/motivational changes associated with nicotine abstinence such as conditioned aversion, intracranial self-stimulation (ICSS) thresholds and the startle response. Dependence models have been used to identify neurobiological systems that contribute to nicotine dependence, particularly endogenous opiate systems and the mesolimbic dopamine pathway. It is hypothesized that these different systems contribute to different behavioral aspects of nicotine abstinence syndrome. Increasingly used as a preclinical screening tool, the model has proved sensitive to various abstinence-alleviating therapeutic approaches, including some with already demonstrated clinical effectiveness.

IgG from neuropeptide FF antiserum reverses morphine tolerance in the rat

Previous studies suggest that neuropeptide FF (NPFF) plays a role in opiate dependence and subsequent abstinence syndrome. The present study assessed the role of NPFF in opiate tolerance. Third ventricular injection of IgG from NPFF antiserum restored the analgesic response to i.c.v. morphine in morphine-tolerant rats (radiant heat tail flick test). IgG from control serum failed to produce this effect. In opiate-naive rats, however, the same treatment with IgG from NPFF antiserum did not affect the analgesic response to i.c.v. morphine. Thus, immunoneutralization of NPFF appears to selectively restore morphine sensitivity in opiate-tolerant animals. These results support the hypothesis that endogenous NPFF contributes to opiate tolerance.

Analog of neuropeptide FF attenuates morphine abstinence syndrome

The octapeptide FLFQPQRFamide (neuropeptide FF or F8Fa) may play a role in opiate dependence and subsequent abstinence syndrome. Previously, NPFF precipitated opiate abstinence syndrome, while IgG from NPFF antiserum attenuated subsequent naloxone-precipitated abstinence signs in dependent rats. The peptide desamino YFLFQPQRamide (daY8Ra) was synthesized as a possible NPFF antagonist. At a dose of 600 ng ICV, daY8Ra significantly attenuated (p less than 0.001) the number of abstinence-like signs subsequently induced by 10 micrograms NPFF ICV, suggesting that daY8Ra does have antagonist activity against NPFF. Pretreatment of morphine-dependent rats with the same dose of daY8Ra also significantly attenuated (p less than 0.001) the abstinence signs subsequently precipitated by 10 micrograms naloxone ICV. Pretreatment with 600 ng of NPFF itself, or of NPFF modified at the N-terminal only (daY9Fa), failed to attenuate subsequent naloxone-precipitated abstinence, suggesting that the C-terminal modification is critical for NPFF antagonist activity. It should be noted, however, that higher doses of daY8Ra (2 micrograms or more) can precipitate some abstinence signs in a manner similar to NPFF.