Variation in genome organization of the plant pathogenic fungus Colletotrichum lindemuthianum

The effects of 5-HT3 receptor antagonists on ethanol intake were examined in the selectively bred alcohol-preferring P line of rats under continuous and limited access to 10% (v/v) ethanol with food and water ad lib. Single daily injections of either MDL 72222 (MDL) or ICS 205-930 (ICS) (0.01-3.0 mg/kg, SC) given 60 min before a 4-h scheduled access period for 4 consecutive days failed at all doses to alter the intake of a 10% (v/v) ethanol solution by P rats. However, multiple daily injections of either MDL (1-3 mg/kg, SC) or ICS (3.0 and 5.0 mg/kg, SC), given three times daily at 4-h intervals, significantly reduced ethanol intake under 24-h free-choice conditions on the first treatment day. Additionally, a single administration of 1.0 mg/kg MDL reduced 24-h free-choice ethanol intake by approximately 50% of control values and had no effect on 24-h saccharin intake. The effects of MDL were further examined in a 2-h schedule access paradigm in which rats received the access period at the same time every day (Fixed) or randomly during the dark cycle (Variable). Although 1.0 mg/kg MDL had little effect on ethanol drinking in the Fixed group, ethanol intake was reduced by 55% of control levels in the Variable group. Overall, the data indicate that drinking conditions influence the effectiveness of 5-HT3 antagonists to reduce ethanol consumption. Furthermore, the results suggest that conditions, associated with limited access ethanol drinking, markedly reduce the actions of 5-HT3 antagonists on ethanol intake.     

Nuclear-cytoplasmic interaction and development of goat embryos reconstructed by nuclear transplantation: production of goats by serially cloning embryos

We found previously that alcohol-preferring (P) rats have fewer serotonin (5-HT) neurons and fibers in key brain regions than alcohol-nonpreferring (NP) rats. Because 5-HT uptake blockers increase synaptic 5-HT content and 5-HT1A receptor antagonists increase 5-HT release by disinhibiting 5-HT autoinnervation, in the present study, our intent was to determine whether increased synaptic 5-HT content and/or 5-HT release in P rats would effectively reduce alcohol consumption. In experiment 1, the 5-HT antagonist WAY 100635 (WAY) was tested on adult female P rats maintained on 24-hr free-choice access to ethanol (10% v/v) and water. Twice daily doses of WAY (0.05, 0.1, 0.5, and 1.0 mg/kg, subcutaneously) were administered to each rat in a counterbalanced order. Baseline ethanol intake, derived from the mean ethanol intakes of the three previous non-drug days, was approximately 8 g/kg/day. Results indicated that 0.05, 0.1, and 0.5 mg/kg doses of WAY reduced 24-hr ethanol drinking by 25-30% (p < 0.01) without affecting 24-hr water intake or body weight. In the second experiment, the effects of WAY (0.5 mg/kg), fluoxetine (1.0 mg/kg), or a combination of both were tested in another group of female P rats. WAY and fluoxetine, each alone, reduced ethanol drinking by around 20% and, when combined, decreased ethanol intake by 50%, whereas the body weight and the total fluid intake were not significantly affected. Taken together, these results indicate that both fluoxetine and WAY preferentially reduce ethanol drinking in the P line of rats and, when administered together, reduce ethanol intake in an additive manner. It is proposed that coadministration of these two compounds with distinct mechanisms of action may be a new strategy for reducing alcohol intake.     

Antioxidants, infections and environmental factors in health and disease in northern Finland

Stimulation of motor activity induced by ethanol has been proposed to reflect the positive reinforcing properties of the drug. The present study was designed to assess whether voluntary ethanol intake would stimulate locomotor activity in Sardinian alcohol-preferring (sP) rats, selectively bred for high ethanol preference and consumption. Rats were habituated to a) consume either water alone (water-consuming rats) or ethanol (10%, v/v) as free choice together with water (ethanol-consuming rats) according to a 15-min limited access protocol for 10 consecutive days prior to the test, and b) explore an open field for 10 min immediately after the drinking session in a trial on 3 consecutive days before the test. On the test day, voluntary ethanol consumption in ethanol-consuming rats averaged 1.2 g/kg. Values for activity measures (time spent moving, number of square crossings and number of rearings) were significantly higher in ethanol- than in water-consuming rats at both 5- and 10-min intervals. These results suggest that the euphorigenic effects of ethanol, supposedly represented by the stimulation of locomotor activity, are part of the reinforcing properties of ethanol in sP rats.     

Housing conditions alter GABAA receptor of alcohol-preferring and -nonpreferring rats

The effects of housing conditions on some functional properties of the GABAA benzodiazepine (BZD) receptor in the cerebral cortex were examined in the selectively bred alcohol-preferring (P) and -nonpreferring (NP) lines of rats. Compared to rats housed in pairs (P with P and NP with NP), P and NP rats housed individually had 44% (p < 0.005) and 32% (p < 0.01) lower values, respectively, for GABA-stimulated 36Cl- influx into cortical microsacs. The maximal effect (Vmax) of flunitrazepam (FNZ) to enhance GABA-stimulated 36Cl- uptake was 44% higher in individually housed P rats than pair-housed P rats (p < 0.05) and 51% higher than individually housed NP rats (p < 0.05). There was no difference between single and pair-housed NP rats for Vmax values of FNZ enhancement of GABA-stimulated 36Cl- influx. The results show housing conditions can alter some of the functional properties of the GABAA/BZD receptor in the P and NP lines of rats. The differential effect of housing conditions on FNZ enhancement of 36Cl- influx, observed between the lines, may be a result of higher levels of anxiety being produced by brief isolation in the P rat.     

Ultrasonic vocalization behavior differs between lines of ethanol-preferring and nonpreferring rats

To further understand the relationship between emotional state and alcohol intake in rats, the tendency to emit ultrasonic vocalizations in response to an aversive, but nonpainful, air puff stimulus was tested in several rat lines. Included in this group were Maudsley Reactive (MR) and Non-Reactive (MNR) rats, and several lines of rats with either high ethanol preference or a low ethanol preference: Preferring, (P), Alko-Alcohol (AA), and Fawn-Hooded (FH) animals; and Non-Preferring (NP), Alko-Non-Alcohol (ANA), and Flinders Resistant Line (FRL). MR rats emitted fewer ultrasonic vocalizations (USVs) and showed less preference for ethanol than did MNR animals. An overall analysis that included the P, NP, FH, FRL, AA, and ANA groups demonstrated a significant negative correlation between the total number of USVs emitted and ethanol consumption. NP, FRL, and especially ANA rats (low ethanol-preferring) emitted the most USVs--to an extent similar to that typically found for normal rats. The duration of vocalizing was higher only in the NP and the FRL rats the relative to their P and FH comparison groups, respectively. In the ethanol-preferring and nonpreferring lines, the numbers of USVs emitted correlated positively with the duration of vocalizing, but not with the latency to vocalize, which in turn did not correlate strongly with ethanol intake. The latency to vocalize did not correlate significantly with ethanol intake across all drinking lines or MR or MNR rats, but was found to be higher in FH and AA rats relative to their nondrinking comparison groups. These associations suggest that the relationship between emotional state and ethanol drinking is complex and cannot be attributed to a simple elevated state of anxiety or emotionality. Further examination of the central nervous system mechanisms mediating the difference in USVs between paired lines of ethanol-preferring and nonpreferring rats may identify neurochemical factors that predict ethanol preference.     

Effect of ethanol drinking and naltrexone on subsequent drinking in rats

The effects of several days of oral ethanol drinking paired with naltrexone (NTX) on subsequent ethanol drinking were investigated in rats. We hypothesized that repeated pairings of NTX combined with forced oral ethanol intake would extinguish ethanol drinking so that when NTX injections were terminated, voluntary oral ethanol drinking would be suppressed. Thirty-two male. Long-Evans rats were provided with alternate days of either 8% ethanol solution or water as the sole source of fluid. Intraperitoneal injections of 0, 2.5, or 5.0 mg of NTX hydrochloride were administered on the ethanol days. Following the termination of injections, rats were returned to unrestricted access to water and ethanol and 24-h measurements of fluid intake were recorded. NTX decreased ethanol intake 4 h, but not 24 h, after NTX injections. Despite the consumption of significant amounts of ethanol during NTX treatment, there was no change in voluntary oral ethanol intake patterns after NTX injections were terminated (reinstatement of voluntary ethanol drinking). Thus, NTX's reduction in ethanol intake was limited in duration and did not result in long-term extinction of ethanol drinking behavior.     

Comparison of alcohol-preferring and nonpreferring selectively bred rat lines. I. Ethanol initiation and limited access operant self-administration

Several lines of alcohol-preferring and alcohol-nonpreferring rats have been developed using selective breeding based on 24-hr homecage ethanol consumption. However, it remains unclear if the selection based on two-bottle choice resulted in similar ethanol self-administration when measured using an operant procedure. In this paper, we compare our previous work using alcohol-accepting (AA) and alcohol-nonaccepting (ANA) rats with data obtained using the identical procedures in the (P) and (NP) rat lines, and both replicate lines of the high alcohol drinking (HAD1 and HAD2) and low alcohol drinking (LAD1 and LAD2) lines. All rats from each line were initiated to self-administer 10% ethanol using the sucrose fading procedure. After initiation, increasing concentrations of ethanol up to 30% ethanol were tested. The results indicated that only in the LAD1 and LAD2 lines was ethanol presentation not able to maintain lever pressing after initiation. Compared with the AA line, the P, HAD1, HAD2, and NP lines all self-administered more ethanol in the operant paradigm after initiation. The ANA line self-administered less ethanol than the AA line, but more than the LAD lines. Correlational analysis of homecage consumption with operant ethanol self-administration suggested that approximately 62% of the genetic variance in operant self-administration resulted from genes selected for the homecage drinking. At the same time, it was clear that there were genetic influences on operant self-administration that were not selected for by homecage ethanol drinking.     

Genetics of alcoholism: rapid development of a new high-ethanol-preferring (HEP) strain of female and male rats

A genetically based animal model of alcoholism has been developed in a relatively short period of 3 years. The new strain is characterized by an intense preference for ethanol over water as well as unique behavioral, neurochemical and other attributes. This new strain, termed high-ethanol-preferring (HEP) rats, was derived initially from selective cross-breeding of a variant strain of female Harlan Sprague-Dawley (SD) rats with the outbred Wistar line of male ethanol-preferring (P) rats. In this study, drinking patterns of both genders were obtained over 10 days by presenting water and ethanol in concentrations ranging from 3% to 30%. To expedite the development of the new strain, only three to five female and male rats served as breeders, which were chosen from all litters on the basis of their maximum g/kg intake integrated with proportion of ethanol to total fluid values. Profiles of intake of preferred concentrations of ethanol were obtained over 24 h of unlimited access as well as during 2-h intervals of limited access to ethanol. Levels of blood ethanol were measured in both female and male HEP animals during bouts of ethanol drinking in the limited access paradigm. By the sixth generation of HEP rats, ethanol consumption of the females often exceeded that of any other rat genetically bred to drink ethanol (e.g., at a concentration of 15.7%, 10.3 g/kg per day). Seven additional characteristics are notable: 1) the HEP rats prefer ethanol in the presence of a nutritious chocolate drink or nonnutrient sweetened solution (aspartame); 2) high levels of blood ethanol are associated with their drinking; 3) females drink significantly greater g/kg amounts of ethanol than HEP males and prefer a higher percent concentration of ethanol; 4) the drinking of ethanol by the female HEP animals does not fluctuate during the estrous cycle; 5) neurochemical assays show differential profiles of 5-HT, dopamine, and their metabolites in different regions of the brain; 6) measures of activity using the elevated plus maze, open field, and cork gnawing reveal differences between genders of HEP rats and SD rats; and 7) the HEP animals are without phenotypically expressed abnormalities. Finally, one cardinal principle derived from this study revealed that the breeding strategy to develop high-ethanol-drinking rats centers on the use of multiple solutions of ethanol whereby the intakes of ethanol in concentration of 9% through 20% dictate the ultimate selection of breeding pairs over successive F generations. Further, it is concluded that because of an intense rise in ethanol drinking of the F1 generation of female HEP rats well above that of the parental SD female breeders, the complex genotypic characteristic of the male P rat is predominantly responsible for evoking ethanol drinking in female offspring.     

Differential rearing conditions and alcohol-preferring rats: Consumption of and operant responding for ethanol.

Exposing rats to differential rearing conditions during early postweaning development has been shown to produce changes in a number of behaviors displayed during adulthood. The purpose of the present studies was to investigate whether rearing alcohol-preferring (P) and nonpreferring (NP) rats in an environmental enrichment condition (EC), a social condition (SC), or an impoverished condition (IC) would differentially affect self-administration of 10% ethanol. In Experiment 1, rats were tested for consumption of 10% ethanol in limited- and free-access tests. For Experiment 2, rats were trained to respond in an operant chamber for ethanol and then provided concurrent access to 10% ethanol and water. Each solution was presented in a separate liquid dipper after meeting the schedule of reinforcement on distinct levers. After concurrent access tests, the water lever/dipper was inactivated and a progressive ratio (PR) schedule was initiated. Three successive solutions (10% ethanol, 15% ethanol, and 10% sucrose) were tested under the PR. For P rats, rearing in an EC reduced ethanol consumption, preference, and motivation to obtain ethanol, relative to P rats reared in an IC. Thus, exposure to a novel environment immediately after weaning acted to decrease the reinforcing properties of ethanol in an animal model for alcoholism. (PsycINFO Database Record (c) 2011 APA, all rights reserved)     

VTA dopamine neuron activity distinguishes alcohol-preferring (P) rats from Wistar rats

The mesolimbic dopamine (DA) system is innately deficient in rats selectively bred for high alcohol drinking behavior compared with rats selectively bred for low alcohol drinking and unselected rats. In alcohol-preferring (P) rats, compared with alcohol-nonpreferring (NP) rats, this is evidenced by fewer DA neurons in the ventral tegmental area (VTA) projecting to the nucleus accumbens (ACB). Yet, despite this deficiency, DA release in the ACB is similar in P, NP, and Wistar rats. DA release is regulated by DA neuronal activity, and DA neurons fire tonically as well as in bursts. Burst firing has been shown to substantially enhance DA release compared with tonic firing. The present study was designed to test the hypothesis that the remaining VTA DA neurons in P rats have faster firing frequencies and/or burst fire more frequently than VTA DA neurons in Wistar rats. The spontaneous activity of VTA DA neurons was recorded in unanesthetized alcohol-naive P and Wistar rats. A conventional burst analysis on 500 consecutive action potentials revealed that P rats had a significantly (p < 0.05) greater percentage of action potentials in bursts when compared with Wistar rats (P: 50.9%, Wistar: 34.4%). Firing frequency and other burst parameters (burst interspike interval, burst length, interburst interval, and the number of action potentials per burst) did not distinguish the two groups of rats. The increased burst activity in P rats may represent a compensatory mechanism to maintain adequate basal levels of DA despite the deficiency in the mesolimbic DA system.     

Genetic differences in ethanol drinking of the rat following injection of 6-OHDA, 5,6-DHT or 5,7-DHT into the cerebral ventricles

The preference characteristics for ethanol of four different strains of rats were determined in a two-choice situation by offering water and ethanol in a concentration which was increased from 3 to 30% over a 12-day test sequence. Using stereotaxic procedures, 50 mug 5,6-dihydroxytryptamine (5,6-DHT), 200 mug 6-hydroxydopamine (6-OHDA) or 100 mug 5,7-dihydroxytryptamine (5,7-DHT) were then injected acutely into the lateral cerebral ventricle in a 20 mul volume. Rats of the Sprague-Dawley strain increased their ethanol preference following the lesioning of the serotonergic system by 5,6-DHT, whereas similar destruction of catecholaminergic neurons by 6-OHDA markedly suppressed ethanol intake; Long-Evans rats displayed a similar trend in ethanol drinking patterns. However, animals of the Holtzman strain manifested the increased drinking after 5,6-DHT, but showed no suppression of drinking following 6-OHDA. The preference of rats of the Wistar strain was unaffected by 5,6-DHT but attenuated by 6-OHDA. 5,7-DHT had little or no effect on ethanol consumption in any of these strains. These findings thus suggest that genetic factors are an important determinant in an animal's response to a drug that affects 5-HT or NE systems in the brain, particularly when ethanol selection is investigated.     

Occupationally embedded exercise versus rote exercise: a choice between occupational forms by elderly nursing home residents

The purpose of this study was to to assess the effect on ethanol drinking of ibotenic acid lesions in the medial prefrontal cortex and the ventral striatum of female rats with continuous access to water and a 6% ethanol solution. Ibotenic acid infusions in the prefrontal cortex did not affect ethanol intake at any time, but a significant increase in water intake was observed on the third postoperative week. Ventral striatal lesions significantly increased ethanol intake during the first 2 postoperative weeks. On the third week consumption was not significantly different from vehicle-infused controls. Apparently, then, severe excitoxic injury to the ventral striatum is compatible with normal, or increased, intake of ethanol; in contrast, similar lesions reduce the intake of other drugs of abuse such as psychostimulants and opioids.     

Further evidence that the tachykinin PG-KII is a potent agonist at central NK-3, but not NK-1, receptors

Intracerebroventricular (i.c.v.) injection of tachykinins (TKs) inhibits ethanol intake and angiotensin II-induced water intake; the effects are apparently mediated by NK-3 and NK-1 receptors, respectively. The present study evaluated the effect of the TK PG-KII, a novel kassinin-like peptide isolated from the skin of the Australian frog Pseudophryne güntheri, in these in vivo tests for central activity. PG-KII, given by i.c.v. injection, potently inhibited alcohol intake in genetically selected alcohol-preferring rats, being about 3 times more potent than the selective NK-3 receptor agonist NH2-SENK. The dose of 100 ng/rat, that markedly inhibited ethanol intake, did not inhibit food intake and prandial drinking in food deprived rats, providing evidence that the effect of PG-KII on ethanol intake is behaviorally selective. The effect on ethanol intake was inhibited by i.c.v. injection of the NK-3 receptor antagonist R820, but was not modified by the NK-1 receptor antagonist SR 140333. PG-KII inhibited drinking induced by angiotensin II only at doses of 300 or 1000 ng/rat, being about 5 times less potent than the selective NK-1 receptor agonist [Sar9, Met(O2)11] substance P. These doses of PG-KII produced also marked increase in competing behaviors, such as grooming and locomotion. The dose of 1000 ng/rat evoked a general inhibition of the ingestive behavior, reducing also food intake. The i.c.v. injection of the NK-1 receptor antagonist SR 140,333 only slightly inhibited the effect of PG-KII on angiotensin II-induced drinking, while it markedly reduced that of [Sar9, Met(O2)11] substance P. These findings, in accordance with those of previous studies, indicate that PG-KII is endowed with marked activity at central NK-3 receptors, and low activity at NK-1 receptors.     

Association between low contents of dopamine and serotonin in the nucleus accumbens and high alcohol preference

The contents of dopamine (DA), 3,4-dihydroxyphenylacetic acid (DOPAC), homovanillic acid (HVA), serotonin (5-HT), and 5-hydroxyindoleacetic acid (5-HIAA) were determined in the nucleus accumbens (ACB), frontal cortex (FR), anterior striatum (AST), and hippocampus (HIP) of adult male rats from the F2 generation of P x NP intercrosses. Rats were tested for their alcohol preference and were divided into two groups, depending on their alcohol intake. Rats in the high drinking group (n = 11) had ethanol intakes > 5g/kg/day, whereas the low drinking group (n = 15) had values < 1 g/kg/day. The content of DA in the ACB was lower (p < 0.001) in the high alcohol drinking group (46 +/- 2 pmol/mg tissue) than in the low intake rats (61 +/- 3 pmol/mg tissue). However, the contents of DOPAC and HVA in the ACB were similar for both groups. There were no differences between the two groups in the contents of DA in the FR or AST. The content of 5-HT in the ACB was lower (p < 0.05) in high alcohol drinking rats (6.3 +/- 0.3 pmol/mg tissue) than in the low intake group (7.0 +/- 0.2 pmol/mg tissue). The content of 5-HIAA in the ACB of the high intake rats was also lower than the level for the low drinking rats. There were no differences in the contents of 5-HT or 5-HIAA in the FR, HIP, and AST between the two groups. The results confirm a phenotypic association between abnormal DA and 5-HT systems projecting to the ACB and high alcohol drinking behavior in the P line of rats.     

Inter-RNA interaction of phage phi29 pRNA to form a hexameric complex for viral DNA transportation

The order of potency of tachykinin (TK) receptor agonists suggests that TK NK-1 receptors mediate their inhibitory effect on water intake induced by intracerebroventricular (i.c.v.) injection of angiotensin II (AngII) in rats. The present study was aimed at further evaluating which TK receptor subtype mediates the effect, using selective antagonists for the TK receptor subtypes. Pulse i.c.v. injection of the TK agonist neuropeptide gamma (NP gamma), 31-250 ng/rat, markedly inhibited AngII-induced water intake. The i.c.v. injection of the NK-1 receptor antagonist SR14033, 0.5 microgram/rat, significantly reduced, while 1 microgram/rat completely abolished the inhibitory effect of NP gamma, 125 ng/rat. The selective NK-2 receptor antagonist SR48968 and the selective NK-3 receptor antagonist R820 were devoid of any effect up to the i.c.v. dose of 2 micrograms/rat. On the other hand, i.c.v. injection of SR140333, 1 microgram/rat, did not increase drinking induced by i.c.v. injection of AngII, 0.1-10 ng/rat, and did not increase drinking in water sated or water deprived rats. The results of the present study confirm that central TKergic mechanisms inhibit AngII-induced drinking in rats, and provide further evidence that TK NK-1 receptors mediate the effect. Failure of i.c.v. injected SR 140333 to increase AngII-induced drinking, as well as water intake in sated or deprived rats suggests that brain NK-1 receptor mechanisms apparently do not exert a tonic control on AngII-induced drinking and, in general, on water intake in rats. From a pharmacological point of view, the inhibitory effect of TKs on the dipsogenic action of AngII can represent a functional test for activity at central NK-1 receptors in rats.     

Comparison of innate EEG parameters in rat lines selected for ethanol preference

Through bidirectional selective breeding, lines of rats that differ greatly in their voluntary alcohol drinking behavior have been developed--namely, the alcohol-preferring (P) and high-alcohol-drinking (HAD) lines and the alcohol-nonpreferring (NP) and low-alcohol-drinking (LAD) lines. The present experiments were designed to determine if an association exists between ethanol preference and features of the electroencephalogram (EEG) during various sleep-wake behaviors. Of the EEG parameters measured, only theta activity in the hippocampus revealed differences in the lines. However, these differences were not generally associated with ethanol preference. The peak frequency and distribution mean of hippocampal theta activity during REM sleep were significantly higher in NP rats than in P, HAD, and LAD rats. In addition, theta frequency during alert immobility tended to be higher in NP rats than in P, HAD, and LAD rats. A qualitative comparison of these data with published data from unselected rats further suggested that the NP rats are uniquely different with respect to theta frequency.     

Effects of the benzodiazepine inverse agonist RO19-4603 alone and in combination with the benzodiazepine receptor antagonists flumazenil, ZK 93426 and CGS 8216, on ethanol intake in alcohol-preferring (P) rats

The present study investigated dose dependence and time course effects of the benzodiazepine (BDZ) partial inverse agonist, RO19-4603 (0.005-0.30 mg/kg) alone, and in combination with the BDZ receptor antagonists flumazenil, ZK 93426, and CGS 8216 (20 mg/kg) in selectively bred alcohol-preferring (P) rats provided a two-bottle choice test between ethanol (EtOH) (10% v/v), and a palatable saccharin (0.0125% g/v) solution. A single dose of RO19-4603 as low as 0.009 mg/kg selectively reduced EtOH drinking during the initial 15 min of a 4 h access to 19-0% of control levels on day 1. The 0.08, 0.15 and 0.30 mg/kg doses of RO19-4603 significantly reduced total EtOH intake in the 4 h access period to 57-45% of controls on day 1. On day 2, no RO19-4603 injections were given; however, six of the seven doses of RO19-4603 (0.009, 0.02, 0.04, 0.08, 0.15, and 0.30 mg/kg) continued to reduce EtOH intake to 42-3% of control levels at the initial 15 min interval, while the 0.005, 0.009, 0.08, and 0.30 mg/kg doses reduced total 4 h EtOH intake to 60-42% of controls. Saccharin intake was either not altered by RO19-4603 or showed increases during the initial 15 min intervals and the total 4 h sessions on days 1 and 2. Food intake was also unaffected by RO19-4603. The CGS 8216, but neither flumazenil nor ZK 93426, reliably reversed the RO19-4603-induced suppression of EtOH intake on days 1 and 2. That certain BDZ inverse agonists can attenuate motivated behavior for EtOH reinforcement over a prolonged time course may provide a possible therapeutic approach to reducing EtOH consumption associated with alcoholism.     

Benzodiazepine receptor antagonists modulate the actions of ethanol in alcohol-preferring and -nonpreferring rats

The pyrazoloquinoline CGS 8216 (2-phenylpyrazolo-[4,3-c]-quinolin-3 (5H)-one, 0.05-2 mg/kg) and the beta-carboline ZK 93426 (ethyl-5-isopropyl-4-methyl-beta-carboline-3-carboxylate, 1-10 mg/kg) benzodiazepine receptor antagonists were evaluated for their capacity to modulate the behavioral actions of ethanol in alcohol preferring and -nonpreferring rats. When alcohol-preferring rats were presented with a two-bottle choice test between ethanol (10% v/v) and a saccharin (0.0125% g/v) solution, both antagonists dose-dependently reduced intake of ethanol by 35-92% of control levels on day 1 at the initial 15 min interval of the 4 h limited access. Saccharin drinking was suppressed only with the highest doses. CGS 8216 (0.25 mg/kg) and ZK 93426 (4 mg/kg) unmasked the anxiolytic effects of a hypnotic ethanol dose (1.5 g/kg ethanol) on the plus maze test in alcohol-preferring rats, but potentiated the ethanol-induced suppression in alcohol-nonpreferring rats. CGS 8216 (0.25 mg/kg) and ZK 93426 (4 mg/kg) attenuated the ethanol (0.5 and 1.5 g/kg)-induced suppression in the open field in alcohol-nonpreferring rats; however, CGS 8216 potentiated the depressant effects of the lower ethanol dose (0.5 g/kg) in alcohol-preferring rats. These findings provide evidence that benzodiazepine receptor antagonists may differentially modulate the behavioral actions of ethanol in alcohol-preferring and-nonpreferring rats. It is possible that the qualitative pharmacodynamic differences seen in the present study may be related to selective breeding for alcohol preference. The findings indicate the potential for development of receptor specific ligands devoid of toxic effects which may be useful in the treatment of alcohol abuse and alcoholism.     

Strain differences in patterns of drug-intake during prolonged access to cocaine self-administration.

The current study examined possible interactions between genetic factors and prolonged drug access by testing the Fischer (F344), Lewis (LEW), and Wistar rat strains in a prolonged access cocaine self-administration (SA) procedure. Before prolonged access, the strains did not differ in breakpoints for food or cocaine with progressive ratio (PR) testing. The LEW and Wistar rats acquired cocaine SA faster than the F344s. With prolonged access to cocaine SA, the LEW and Wistar rats showed comparable within-session patterns that were higher at the outset of each session and decreased to a stable baseline. Alternatively, the F344 rats began sessions with lower intake and increased their rate of intake during the session. The F344 and Wistar rats took more drug per session than the LEW rats but did not differ from each other. Following prolonged access, the strains did not differ in breakpoints for food, but the Wistar rats had higher breakpoints for cocaine than the F344 rats. Possible underpinnings for the observed strain differences are discussed. (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

The role of cholecystokinin (CCK), CCK-A or CCK-B receptor antagonists in the spontaneous preference for drugs of abuse (alcohol or cocaine) in naive rats

A "free choice" two-bottle drinking test paradigm was implemented in naive adult male Wistar rats, resulting in a clear identification of rats drinking mainly water (water-preferring, WP rats) and rats spontaneously drinking also a consistent amount of a solution of cocaine (0.5 mg/ml water, cocaine-drinking, CD rats) or ethanol 10% v/v (ethanol-drinking, ED rats). Low, selective doses (5 micrograms/kg) of the specific cholecystokinin (CCK)-A receptor antagonist L-364,718 largely reduced the intake of ethanol 10% of ED rats only. In contrast, low, selective doses of GV-150013 (5 micrograms/kg) reduced significantly the consumption of cocaine of CD rats only. These results indicate that the CCK-A or B receptors are selectively involved in the modulation of alcohol or cocaine intake, respectively, and suggest an involvement of the CCKergic system in the drug-seeking behavior. WP rats and CD rats were then prepared for ex vivo electro-neurochemical analysis by means of differential pulse voltammetry (DPV) with micro-biosensors to monitor catechol, 5-hydroxyindole and peptidergic oxidation signals in the nucleus accumbens (nAcc). In this area, the peptidergic signal appeared to be related to the oxidation of endogenous CCK, which basal levels resulted higher in ED and CD rats than WP rats. Thus, the hypothesis that the endogenous tone of the CCK system is higher in the ED and CD rats than in the WP rats is proposed, and is supported by the observation that treatment with CCK-5 (CCK receptor agonist) selectively induced the WP rats to drink alcohol or cocaine. The selective effect of the CCK-antagonists on reducing the drug intake of ED or CD rats further supports this view, as it suggests that CCK antagonists may modify the individual sensitivity towards drugs of abuse set by the stimulating effect of high endogenous CCKergic tone over CCK-B or CCK-A receptors in spontaneous ED or CD rats, respectively. Therefore, the present data indicate that: i) Free-choice models may reveal the presence of individual sensitivity to alcohol or cocaine in naive rats; ii) the dopaminergic system is involved within the reward state, while peptidergic (CCKergic) activities modulate the drug-seeking state (craving state); iii) the CCK system could be a new target in the study of the drug dependency phenomenon. In particular, the data imply a CCK-A receptor mechanism in the regulation of individual sensitivity towards ethanol and a CCK-B receptor mechanism in the regulation of individual sensitivity towards cocaine. Thus, a potential therapeutic role for CCK-A antagonists in the treatment of ethanol abuse and for CCK-B antagonists in the treatment of cocaine abuse is proposed.