Impairment of cliff avoidance reaction induced by subchronic methamphetamine administration and restraint stress: comparison between two inbred strains of rats

1. The effects of subchronic methamphetamine (MAP) treatment and restraint stress on the behavioral sensitization in stereotypy (stereotypy sensitization) and cliff avoidance reaction (CAR) were examined in two inbred strains of male rats; Fischer 344/N (F344), and Lewis/N (LEW). 2. In experiment 1, the animals received 4 mg/kg/day MAP for 30 days. LEW rats developed stereotypy sensitization earlier than F344 rats. However, both strains plateaued at the same stereotypy rating score. Furthermore, F344 rats were susceptible to CAR impairment as a result of MAP treatment, whereas LEW rats were not. 3. In experiment 2, the animals were exposed to daily restraint stress of 2hr for 4 weeks. MAP was administered (4mg/kg) 7 days after the last treatment day. Repeated restraint stress induced almost the same degree of stereotypy sensitization in both strains. F344 rats were susceptible to CAR impairment induced by repeated stress, whereas LEW rats were not. 4. The effects of psychostimulant and stressors appear to be similar not only with respect to stereotypy sensitization but also CAR impairment. Differences in MAP- or stress-induced CAR impairment between the two inbred strains may be genetically linked and may be involved in the development of psychotic behavior.     

Ontogeny of striatal dopamine release in rats after acute administration of methamphetamine

In the present study, we examined the effects of acute MAP administration on striatal extracellular levels of dopamine (DA) and its metabolites in groups of rats on postnatal days (PNDs) 14, 21, 28, and 56. A single injection of 4 mg/kg MAP (IP) induced increase in extracellular DA and decrease in extracellular 3,4-dihydroxyphenylacetic acid (DOPAC) in the striatal perfusates of rats on all PNDs examined. The magnitude of increase in DA concentrations at 20 min after the MAP injection was significantly smaller on PND 14 than PNDs 21, 28, and 56, whereas the magnitude of decrease in DOPAC concentrations after the MAP injection was significantly smaller on PND 14 than PNDs 21, 28, and 56. After the MAP injection, homovanillic acid levels decreased on PNDs 21, 28, and 56, but increased on PND 14. These results suggest that rats on PND 14 differ from those thereafter in MAP-induced DA release and changes in its metabolites, and that such developmental effect on MAP-induced DA release may be involved in the ontogeny of MAP-induced behavioral sensitization.     

Effects of diet on sensitization to cocaine-induced stereotypy in female rats

The progressive increase in cocaine-induced stereotyped behavior that accompanies repeated cocaine injections (sensitization) was examined in rats consuming different diets. Adult female Sprague-Dawley rats were fed one of three diets: low protein (6% casein), adequate protein (25% casein), or a standard chow diet. Following 1 week of adaptation to the diets, the rats were injected every 3-4 days with either cocaine (30 mg/kg, IP) or saline, and the total amount of stereotypy was measured over a 90-min interval following each of four injections. Cocaine-induced stereotypy peaked at 40-50 min following each injection, after which it declined for all diet groups. With repeated injections, the total amount of stereotypy increased in all diet groups. By the fourth injection, the low protein diet group (6% casein) exhibited a slower onset and a possibly prolonged duration of cocaine-induced stereotypy when compared with the two adequate protein diet groups (25% casein and chow). Interestingly, the rats in the two purified diet groups (6% casein and 25% casein) exhibited significantly more stereotypy across injections than those in the chow diet group. Weight differences did not explain the differences in stereotypy present among the diet groups. This study concludes that diet significantly alters the pattern of cocaine-induced stereotypy in female rats, especially after repeated exposure.     

Behavioral and neurochemical effects of acute and repeated administration of triadimefon in the male rat

The effects of triadimefon (TDF) were examined in male Sprague-Dawley rats. In this study, the acute administration of TDF (100 mg/kg) was found to significantly increase locomotor activity and induce stereotyped behavior. Acute administration of TDF was also found to significantly increase dopamine (DA) and homovanillic acid (HVA) levels while the dihydroxyphenylacetic acid (DOPAC) level remained unchanged in both the nucleus accumbens (NA) and striatal (ST) tissues when compared to control. Furthermore, DOPAC:DA ratios were significantly reduced in both brain regions suggesting an increase in DA turn overrate. On the other hand, in animals receiving repeated TDF administration, only the HVA level was significantly increased in both the ST and NA. TDF neither competed for binding to D2, D3 or D4 DA receptors nor altered the Kd or the Bmax of [3H] SCH 23390 and [3H] spiperone recognition sites associated with striatal D1 and D2 receptors, respectively. Meanwhile, TDF competed with [3H] GBR 12935 for binding to DA transporter sites with strong affinity, but repeated treatment with TDF had no sustained or cumulative effect on the DA transporter system. These results clearly show that acute TDF-induced behavioral effects may not be via binding to DA receptors, but through the interaction with DA transporter binding sites. Also, TDF does not appear to produce cumulative effects in the parameters evaluated.     

Effects of repeated nicotine pre-treatment on mesoprefrontal dopaminergic and behavioral responses to acute footshock stress

The effects of acute and repeated nicotine administration on the stress response of rat mesoprefrontal dopaminergic pathways were examined. Rats were given daily injections of nicotine (0.15 or 0.60 mg/kg, s.c., freebase) or saline for 4 days, then challenged with either nicotine or saline. A regimen of inescapable electrical footshocks or no footshocks was then administered. Thirty minutes after final injection, rats were sacrificed, brains removed and dopamine (DA) and its metabolite dihydroxy-O-phenylacetic acid (DOPAC) were extracted from medial prefrontal cortex (mPFC), nucleus accumbens septi (NAS) and dorsolateral striatum and quantified by high performance liquid chromatography with electrochemical detection. Acute administration of low dose nicotine (0.15 mg/kg) produced an increase in DA utilization (increased DOPAC/DA ratio) in mPFC and NAS, but not striatum. High dose nicotine (0.60 mg/kg) produced activation in NAS, but not mPFC or striatum. Repeated low dose nicotine pre-treatment produced tolerance to the effects of nicotine challenge in the mPFC, and reduced its effects in NAS. Footshock stress preferentially increased DA utilization in mPFC and associated footshock stress-induced immobility responses, and these were reduced by low, but not high, dose repeated nicotine pre-treatment. Further, a single dose of the nicotinic acetylcholine receptor (nAChR) antagonist mecamylamine (MCA) 30 min prior to nicotine challenge dose-dependently blocked the reduction of mesoprefrontal DA stress responsivity and immobility responses produced by repeated nicotine pre-treatment. These results indicate that: (1) there are dose-dependent differential effects of acute and repeated nicotine pre-exposure on regional DA utilization; (2) low, but not high, dose repeated nicotine reduces both the mesoprefrontal DA and behavioral effects of acute footshock stress; and (3) these effects of repeated nicotine may depend on mecamylamine-sensitive nAChR stimulation. These results may have relevance to acute stress and nicotine dependence, particularly in schizophrenic disorders, which have high prevalence rates of co-morbid nicotine dependence, stress-induced symptom exacerbation and prefrontal cortical dysfunction.     

Control of virulence gene expression by plant calcium in the phytopathogen Erwinia carotovora

1. The authors performed both microdialysis and behavioral measurement in each of rats, in order to examine effects of nitric oxide synthase inhibitor, N omega-nitro-L-arginine methyl ester (LNAME;30 mg/kg,i.p.) on striatal dopamine (DA) release and stereotypy induced by a single administration of methamphetamine (MA)(4 mg/kg,s.c.), simultaneously. 2. LNAME administered prior to MA significantly decreased level of locomotion-stereotypy rating scores induced by MA. 3. In the same animals, LNAME had no effect on MA-induced striatal DA release. 4. The results suggest that NO synthesis inhibition attenuated MA-induced stereotypy by modulating neuronal process subsequent to activation of postsynaptic DA receptors.     

Induction and immunological characterization of the uridine diphosphate-glucuronosyltransferase conjugating 1-naphthol in the rat choroid plexus

In this experiment, rats were injected intraperitoneally with 6 mg/kg methamphetamine (MAP) hydrochloride or the same volume of saline once daily for 14 days. Rats were decapitated after a 1-day, 4-day or 10-day withdrawal period. The number and affinity of [3H]mazindol binding sites in the striatum were measured. Their number in the MAP group decreased as compared with controls after a 1-day withdrawal period, but returned to the control level after a 4-day and 10-day withdrawal period. These results are believed to show that the decrease in dopamine uptake sites after repeated administration of MAP is transient and does not contribute to MAP-induced behavioral sensitization.     

Oscillatory-sensitization model of repeated drug exposure: cocaine's effects on shock-induced hypoalgesia

1. The authors have recently proposed that the sensitization produced by repeated exposure to drugs or stress may give way to an alternating pattern of increases and decreases in the response to each subsequent exposure (i.e., oscillate), as the limits of the physiological system are approached. 2. Evidence for oscillation has been obtained for 6 drug/non-drug stressors and 9 neurochemical or endocrine endpoints. This paper extends the model to a behavioral outcome. 3. In the first experiment, rats were given 0, 1, 2 or 3 pretreatments with cocaine hydrochloride (COC; 12 mg/kg i.p.), separated by 1-week intervals, and then were tested for footshock-induced hypoalgesia (5-sec, 2-mA), as measured by withdrawal latencies from a hot-plate. 4. The second experiment replicated the first and extended the pretreatment sequence to 5 COC injections. 5. In both experiments, shock significantly increased latencies over the no-shock controls. COC enhanced shock-induced hypoalgesia and this sensitization reached its maximum after 2 COC pretreatments. Thereafter, oscillation developed such that the sensitization was attenuated by 3 as compared to 2 COC injections, enhanced by 4 injections, and reattenuated after 5 COC pretreatments. 6. These data complement other findings by demonstrating that the oscillation model extends to a stress-induced behavioral outcome.     

Repeated cocaine augments excitatory amino acid transmission in the nucleus accumbens only in rats having developed behavioral sensitization

Rats were pretreated with daily cocaine or saline injections for 1 week. The rats treated with daily cocaine were separated into two groups: a sensitized group of animals demonstrating > 20% increase in motor activity on the last injection compared with the first injection of daily cocaine, and a nonsensitized group showing < 20% elevation. At 2-3 weeks after the last daily injection, four experiments were performed to assess changes in excitatory amino acid (EAA) transmission in the nucleus accumbens produced by repeated cocaine administration. (1) Rats were challenged with a microinjection of AMPA into the shell or core of the nucleus accumbens. The sensitized rats demonstrated greater motor activity than did the saline-pretreated or nonsensitized animals after AMPA injection into either subnucleus. (2) It was shown that the behavioral distinction between sensitized, nonsensitized, and control rats in behavioral responsiveness to AMPA was not mediated by differences in AMPA-induced dopamine release. (3) The extracellular content of glutamate was measured after a cocaine challenge given at 21 d of withdrawal. Cocaine elevated the levels of glutamate in the core of sensitized rats, but not of nonsensitized or control rats. (4) Microinjection of the non-NMDA antagonist 6-cyano-7-nitroquinoxaline-2,3-dione into the core abolished the augmented motor response to a cocaine challenge in sensitized rats, but was without effect on cocaine-induced motor activity in nonsensitized animals. These results indicate that repeated cocaine administration increases EAA transmission in the nucleus accumbens only in rats that develop behavioral sensitization to cocaine.     

Involvement of the fimbria fornix in the initiation but not in the expression of methamphetamine-induced sensitization

To put forward our previous finding that the lesion of the fimbria fornix, a hippocampo-accumbal pathway, blocked the development of behavioral sensitization induced by repeated methamphetamine (MAP) administrations, we examined the role of the fimbria fornix in the expression of sensitization in this study. After rats had shown locomotor augmentation following repeated drug injections, they received either the fimbria fornix lesion or a sham operation. Both groups of rats still exhibited a similar sensitized locomotor response to MAP as before the surgeries. In addition, we evaluated dopamine metabolism in the nucleus accumbens of these rats following a challenge injection of MAP after the behavioral study. The data obtained correspond to the results of behavioral experiments in that 3-methoxytyramine, one of the dopamine metabolites, increased significantly after MAP challenge only in the groups of sensitized animals. These findings further support the recent concept that there may exist different neural mechanisms in the initiation and expression of sensitization phenomenon.     

Conditioned facilitation of brain reward function after repeated cocaine administration.

Cocaine lowers brain reward thresholds, reflecting increased brain reward function. The authors investigated whether, similar to acute cocaine administration, cocaine-predictive conditioned stimuli would lower intracranial self-stimulation (ICSS) thresholds. Rats received a saline injection for 5 days, a cocaine injection (10 mg/kg) for 20 consecutive days, then saline for 5 additional days. Thresholds were measured immediately before and 10 min after each injection. The initial 5 saline injections had no effect on thresholds, whereas cocaine significantly lowered thresholds for 20 days. There was no tolerance or sensitization to this effect of cocaine over days. During the last 5 days when cocaine administration was substituted with saline, rats demonstrated a conditioned lowering of thresholds during the 2nd daily ICSS session. These data demonstrate that cocaine-predictive conditioned stimuli induce a conditioned facilitation of brain reward function. (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Functional consequences of central serotonin depletion produced by repeated fenfluramine administration in rats

Repeated administration of D,L-fenfluramine (FEN) is known to cause prolonged depletion of forebrain serotonin (5-HT) in animals. Ironically, few studies have evaluated functional consequences of such FEN-induced 5-HT loss. In the present work, we examined neuroendocrine and behavioral responses evoked by acute FEN injection in rats that had previously received a 4 d FEN-dosing regimen known to deplete forebrain 5-HT (D,L-FEN, 20 mg/kg, s.c., b. i.d.). Rats were fitted with indwelling jugular catheters before the study to allow for repeated intravenous challenge injections and stress-free blood sampling. At 1 and 2 weeks after the 4 d dosing regimen, acute FEN (1.5 or 3.0 mg/kg, i.v.) produced dose-related elevations in plasma corticosterone and prolactin; these hormonal responses were markedly attenuated in FEN-pretreated rats. Behavioral effects of acute FEN, namely flat body posture and forepaw treading, were also blunted in FEN-pretreated rats. Interestingly, rats exposed to repeated FEN did not display overt abnormalities in hormonal or behavioral parameters under basal (i.e., unprovoked) conditions, despite dramatic decreases in postmortem tissue levels of 5-HT in numerous brain areas. Our results suggest that FEN-induced 5-HT depletion is accompanied by multiple impairments in 5-HT function. Although the clinical relevance of our data are debatable, the findings clearly show the utility of the FEN challenge test for uncovering in vivo functional deficits that might otherwise go undetected. FEN should remain an important pharmacological tool for determining the role of 5-HT neurons in mediating diverse physiological and behavioral processes.     

Cocaine sensitization can accelerate the onset of peak cocaine behavioral effects

The development of sensitization to the behavioral effects of cocaine occurs with repeated intermittent usage. In the present study rats were given five daily i.p. injections of cocaine (10 mg/kg) immediately prior to placement in an open-field environment for 20 min to induce cocaine sensitization. Control groups received saline injections or cocaine injections (10 mg/kg) 30 min after testing in the home cage. One week later the animals were given a challenge test with 10 mg/kg cocaine. The animals that had received cocaine in the test environment exhibited a more rapid onset of cocaine-induced behavioral effects than either animals previously treated with saline or animals that had received cocaine in the home cage. In a second experiment, the same sensitization protocol was followed except that during the interval between the end of the cocaine/saline treatments and the challenge test, the animals were given six daily 20-min saline tests to assess the contribution of differential habituation and/or Pavlovian conditioning to the sensitization effect. Neither habituation or Pavlovian conditioning altered the more rapid onset of cocaine stimulant effects induced by repeated cocaine treatments. It is suggested that the faster onset of cocaine effects is another way in which cocaine sensitization contributes to cocaine abuse liability.     

Evidence for the involvement of phospholipase A2 mechanisms in the development of stimulant sensitization

Evidence suggests that phospholipase A2 (PLA2) activation is involved in numerous neuroplastic phenomena, including long-term potentiation. Considering the pharmacological similarities between long-term potentiation and stimulant sensitization, it seems possible that PLA2 inhibition activity also might have a role in the induction of stimulant sensitization. In this study, we have investigated whether PLA2 inhibition, by quinacrine, has any effects on stimulant-induced behavioral sensitization. Both locomotor and stereotypic behavioral sensitization were dose-dependently blocked in rats pretreated with quinacrine (8-25 mg/kg i.p.) 15 min before cocaine (30 mg/kg i.p.), when tested with cocaine (15 mg/kg i.p) 72 hr later. Similar results also were found with d-amphetamine (2 mg/kg i.p.) sensitization using a 10-day treatment regimen with testing on day 11. The ability of PLA2 activation, by melittin, to produce cocaine sensitization also was tested. Local injections of melittin (0.1 microgram/0.4 microliter) into the ventral tegmental area sensitized the subsequent stimulation of locomotor activity, stereotypy and nucleus accumbens dopamine release by cocaine, when tested 72 hr later. Local injections of melittin (0.1-1.0 microgram/0.8 microliter) into the nucleus accumbens had a moderate sensitizing effect on locomotion. Quinacrine (16 mg/kg) pretreatment 45 min before intraventral tegmental area melittin injection significantly decreased melittin-induced sensitization of the locomotor and stereotypy response to cocaine. These results indicate that PLA2 activation may play a role in the induction of stimulant sensitization. It is proposed that PLA2 activity in mesolimbic dopamine neurons, at the level of the cell bodies and perhaps the nerve terminals, is involved in the biochemical mechanisms mediating the development of stimulant sensitization.     

Purinoceptor modulation of noradrenaline release in rat tail artery: tonic modulation mediated by inhibitory P2Y- and facilitatory A2A-purinoceptors

Repeated administration of amphetamine-like stimulants to rats results in enhanced behavioral responsiveness to subsequent administration of these drugs. Recent evidence suggests corticosterone may play a role in the development of sensitization perhaps through the down-regulation of glucocorticoid receptor (GR). To test this hypothesis further we examined the effects of five daily injections of amphetamine (AMPH) (2.5 mg/kg) on GR mRNA of adult Sprague-Dawley rats. Two other groups received saline for 4 days and then either saline or AMPH on the fifth day. All animals were killed 24 h after the last treatment and in situ hybridization was performed with an antisense mRNA GR probe. Quantification of hippocampal GR was accomplished by computer analysis of digitized images of CA1 and dentate gyrus. Acute AMPH produced a significant up-regulation of GR mRNA in CA1 and a nonsignificant trend towards up-regulation in the dentate gyrus. Repeated exposure to AMPH resulted in a significant down-regulation in CA1, and a nonsignificant trend towards down-regulation in dentate gyrus. These data support a role for hippocampal GR mRNA in the development of behavioral sensitization.     

Does dizocilpine (MK-801) selectively block the enhanced responsiveness to repeated amphetamine administration?

In order to examine the hypothesis that N-methyl-{d}-aspartate (NMDA) receptors are selectively involved in the development of stimulant sensitization, we characterized the interaction between acute and chronic dizocilpine (MK-801)?+?amphetamine using a detailed behavioral analysis, including concurrent assessment of the locomotor and stereotypy components of the stimulant response and continuous monitoring of all the various phases of the emergent sensitization. The results showed that MK-801 (0.125 mg/kg) significantly affected the acute response to amphetamine (0.5, 1.75, 4.0 mg/kg), increasing or decreasing locomotor activity depending on dose. Repeated administration of MK-801?+?amphetamine resulted in a suppression of stereotyped behaviors and a potentiated locomotor sensitization. These findings suggest that rather than blocking the development of sensitization, MK-801 pretreatment may produce a unique behavioral augmentation that is apparent during coadministration and that persists for up to 48 hr in the response to amphetamine challenge. (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Differential development of autoreceptor subsensitivity and enhanced dopamine release during amphetamine sensitization

Various changes in the function of dopamine neurons have been proposed to underly the development of behavioral sensitization to the locomotor stimulant effects of d-amphetamine. The present study examined the relative importance of two such mechanisms after both short (3-4 days off) and longer (10-14 days off) withdrawals from repeated amphetamine or saline injection (1 mg/kg/day, days 1-5 and 8-12). First, single-unit recording was used to examine the sensitivity of impulse-regulating somatodendritic autoreceptors located on mesoaccumbens dopamine neurons in the rat ventral tegmental area. Second, in vivo microdialysis was used to examine the ability of amphetamine challenge to increase extracellular dopamine levels in the rat nucleus accumbens. Amphetamine-treated rats exhibited robust behavioral sensitization at both time points as compared to saline-treated rats. At 3 to 4 days off, autoreceptor subsensitivity was observed in the ventral tegmental area of amphetamine-treated rats, but there was no significant change in the ability of amphetamine to increase extracellular dopamine levels in nucleus accumbens. However, after 10 to 14 days off, autoreceptor subsensitivity was no longer observed, but amphetamine challenge resulted in a significantly greater increase in extracellular dopamine levels in amphetamine-treated as compared to saline-treated rats. These findings suggest that autoreceptor subsensitivity is a transient effect which may be related to the development of sensitization, whereas enhancement of amphetamine-stimulated dopamine release does not accompany early stages of behavioral sensitization, but may be involved in the persistence of the phenomenon after longer withdrawal periods.     

The effects of repeated alcohol exposure on the neurochemistry of the periadolescent nucleus accumbens septi

Substance abuse is a major issue in today's society and is an issue of critical importance in the adolescent population. Research indicates that substance use is often initiated during the adolescent period and that brain reward areas are still undergoing changes during this time. Despite this, little research has investigated the effects of repeated drug use on the reward mechanisms of periadolescent animals. For this reason, the present study examined the effects of repeated ethanol (EtOH) administration on the responsiveness of the nucleus accumbens septi (NAcc) to either EtOH or saline challenge. The data indicate that repeated exposure to EtOH produces temporal shifts in the dopaminergic (DAergic) activity of the NAcc, with peak activity occurring earlier. Importantly, following repeated injections of EtOH, saline injections alone elicit DA increases in the NAcc suggesting that the context of alcohol administration produces fundamental changes in the way that neurochemical reinforcement mechanisms respond. The expectancy of the drug alone elicits reward-related activity within the NAcc.     

Relative bioavailability of carbinoxamine and phenylephrine from a retard capsule after single and repeated dose administration in healthy subjects

The present study was designed to investigate the role of cardiopulmonary reflex, more specifically the Bezold-Jarisch reflex, in experimental hypertension induced by chronic administration of Nw-nitro-L-arginine methyl ester (L-NAME) (0.5 mg/ml) added to the drinking water for 6 days. The study was performed in male Wistar rats (200-350 g), 9 animals per group. L-NAME ingestion caused a significant increase in resting mean arterial pressure (MAP: 182 +/- 4 mmHg) and heart rate (HR: 447 +/- 20 bpm) when compared to untreated rats (MAP: 112 +/- 3 mmHg and HR: 355 +/- 10 bpm). Cardiopulmonary receptors were chemically stimulated with bolus injections of 5-hydroxytryptamine (5-HT, 4-10 micrograms/kg, iv) followed by measuring the falls in diastolic arterial pressure (DAP) and HR in conscious and freely moving animals. As expected, the responses to intravenous injections of 5-HT consisted of a dose-dependent reduction in HR (from 26 +/- 14 to 175 +/- 25 bpm) and DAP (from 7 +/- 4 to 39 +/- 3 mmHg) in the control rats. Both bradycardia and diastolic hypotension were significantly accentuated in the L-NAME animals (approximately 30%). These data suggest that, in contrast to other models of hypertension, in the present one caused by inhibition of nitric oxide synthesis, the Bezold-Jarisch reflex is exaggerated. This neural dysfunction could be related to changes in the cardiac vagal efferent or effector.     

Effects of chronic haloperidol and intermittent cocaine administration on behavior elicited by apomorphine.

Relatively little is known about the behavioral or neurophysiological effects resulting from the concurrent administration of haloperidol and cocaine. To investigate this drug interaction the effects of chronic, daily administration of haloperidol, intermittent cocaine injections, or the combination of both drug treatments on locomotion and stereotypy elicited by apomorphine in rats (Rattus norvegicus) were compared. The results indicated that, in comparison to treatment with either drug alone, the combination of daily haloperidol and intermittent injections of cocaine produced unique behavioral effects. Rats coadministered both drugs exhibited significant increases in apomorphine-induced locomotion that were maintained throughout the 64 days following suspension of drug treatment. These results are discussed in terms of the possible neurophysiological mechanisms underlying the observed behavioral changes and are related to the consequences of psychostimulant abuse in human neuroleptic treated populations. (PsycINFO Database Record (c) 2010 APA, all rights reserved)