Selection of C3 alcohols by high and low ethanol selecting mouse strains and the effects on open field activity

Mice of the high-ethanol selecting C57BL/6j strain consume significantly larger amounts of 10% solution of 1,2-propanediol and 1-propanol than the low-ethanol selecting DBA/2j strain. Both strains uniformly avoid a 10% solution of 1,3-propanediol and 2-propanol. Open field activity was tested 30 min after an IP injection of 3 different equimolar doses of each alcohol. An increase in activity was produced in the DBA/2j strain by high (0.003 ml/mg) and middle (0.0015 ml/kg) doses of 1,2-propanediol and by a low dose (0.0005 ml/mg) of 2-propanol. The C57BL/6j strain were unaffected by these doses. High doses of 2-propanol produced sleep in both strains with the DBA/2j strain sleeping significantly longer, and 1,3-propanediol produced depression in both strains. Death resulted in all animals following injections at the high (0.002 mg/gm) and medium (0.001 ml/gm) doses of 1-propanol while the low dose (0.0005 ml/gm) produced slight depression.     

Inherent differences in sensitivity to methylxanthines among inbred mice

The behavioral effects of caffeine, theophylline, paraxanthine, and theobromine on locomotor activity were analyzed in four strains of inbred mice that were previously shown to differ in their acute toxic responses to caffeine administered at high dosages. Dose response curves for the effects of caffeine, theophylline, paraxanthine and theobromine on locomotor activity were established in CBA/J, C57BL/6J, DBA/2J and SWR/J strains of inbred mice. Paraxanthine was the maximally effective methylxanthine in the CBA/J, DBA/2J and SWR/J strains, while in the C57BL/6J strain, caffeine was the maximally effective methylxanthine. Theophylline failed to stimulate locomotor activity in the C57BL/6J strain and theobromine failed to stimulate activity in all of the strains tested. Decreases in locomotor activity were seen at the 100 mg/kg dose of caffeine in the C57BL/6J mice and at the 100 mg/kg dose of theophylline in the C57BL/6J, DBA/2J and SWR/J strains. Theobromine produced decreases in locomotor activity in the C57BL/6J, DBA/2J and SWR/J strains of mice. In contrast to the other methylxanthines, paraxanthine failed to decrease activity across the range of doses tested (1.0-150 mg/kg). These data suggest that the methylxanthines have genetically specified multiple modes of action upon locomotor activity and that the use of genetically distinct strains of mice may have important value in the neurochemical and pharmacological dissection of methylxanthine-induced behavioral effects.     

Distribution, excretion, and metabolism of 2,3,7,8-tetrachlorodibenzo-p-dioxin in C57BL/6J, DBA/2J, and B6D2F1/J mice

The strains of mice, C57BL/6J, DBA/2J, and B6D2F1/J, have been used as models to study the mechanism of action of 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD). The distribution, excretion, and metabolism of this compound was studied in male C57BL/6J, DBA/2J, and B6D2F1/J mice following the intraperitoneal administration of radiolabeled TCDD at a dose of 10 micrograms/kg. In all strains, the liver and adipose tissue were the major sites for the accumulation of 3H-TCDD, with more 3H-TCDD being distributed to the livers of the C57BL/6J and B6D2F1/J strains as compared to the DBA/2J strain. While in all strains the feces were the major route of elimination, the total amount of 3H-TCDD-derived radioactivity excreted in the feces amounted to approximately 72% of the original dose in the C57BL/6J and B6D2F1/J strains whereas this was only 54% in the DBA/2J strain. The half-lives for the cumulative excretion of radioactivity in the feces were similar in all strains. The half-life for the excretion of radioactivity in the urine was considerably greater in the DBA/2J strain as compared to the C57BL/6J and B6D2F1/J strains. The estimated half-lives for the total cumulative excretion of 3H-TCDD-derived radioactivity by all routes was 11.0, 24.4, and 12.6 days for the C57BL/6J, DBA/2J, and B6D2F1/J strains, respectively. Greater than 85% of the total radioactivity excreted in urine, bile, and feces from all three mouse strains was present as metabolites of TCDD.     

Susceptibility to amphetamine-induced place preference is predicted by locomotor response to novelty and amphetamine in the mouse

Rationale It has been demonstrated that major differences between mice of the C57BL/6J and DBA/2J inbred strains for amphetamine-induced place conditioning (preference and avoidance, respectively) are evident in standard housing conditions but abolished by temporary restricted feeding. This gene-experience model may be usefully exploited to dissect behavioral phenotypes related to place conditioning induced by addictive drugs.Objectives This study evaluated a number of behavioral phenotypes related to amphetamine-induced place preference for strain differences (C57BL/6J vs DBA/2J) susceptible to be abolished by temporary food restriction.Methods Mice of the two inbred strains were tested for: (1) conditioned taste aversion and place preference induced by amphetamine within the same dose-range; (2) preference for a novel compartment 24 h after a single exposure to only one of two compartments; (3) amphetamine-induced behavioral sensitization and conditioned hyperactivity; and (4) locomotor activity during exploration of a novel environment.Results The two strains showed consistent taste aversion at doses of amphetamine that promoted opposite strain-dependent place conditioning. Both strains spent more time exploring the novel rather than the known compartment of the place conditioning apparatus. Instead, only mice of the C57 strain showed amphetamine-induced behavioral sensitization and conditioned hyperactivity. However, temporary food restriction did not affect strain differences for these phenotypes. Finally, C57 mice were more active than DBA in a novel environment and restricted feeding abolished this strain-dependent difference.Conclusions These results relate individual differences for amphetamine-induced place conditioning with locomotor response to amphetamine and novelty.     

Effects of morphine and chlordiazepoxide on avoidance behaviour in two inbred strains of mice

Morphine and chlordiazepoxide were tested in the inbred strains of mice DBA/2J (DBA) and C57BL/6J (C57), subjected to three daily 50-tria1 avoidance sessions in the shuttle-box. The DBA strain reached higher avoidance levels in comparison to the C57 strain after the administration of saline. Morphine facilitated avoidance responding in the C57 strain but not in DBA mice. An improvement in avoidance behaviour was observed following the administration of chlordiazepoxide in both strains of mice. Some favourable effects were obtained in DBA mice by combining morphine with chlordiazepoxide, whereas no interaction between these drugs was found in the C57 strain.     

Ethanol, nicotine, amphetamine, and aspartame consumption and preferences in C57BL/6 and DBA/2 mice

Using a two-bottle choice paradigm, adult C57BL/6 and DBA/2 mice (11 males and 10 females per strain) were given access to tapwater and an ascending series of concentrations of ethanol, nicotine, amphetamine, and the artificial sweetener, aspartame. The C57 mice consumed more ethanol, nicotine, and amphetamine, and showed greater preferences for these substances, than did the DBA/2 mice. In contrast, DBAs consumed more and showed greater preference for aspartame than C57s. However, measures of drug and aspartame consumption and preference were moderately intercorrelated when the effects of gender and strain were controlled for. This pattern of results suggests that factors modulating differences between C57BL/6 and DBA/2 mice in ethanol consumption and preference also modulate differences in consumption of nicotine and amphetamine.     

A comparison of the discriminative stimulus properties of the atypical antipsychotic drug clozapine in DBA/2 and C57BL/6 inbred mice

Inbred mouse strain comparisons are an important aspect of pharmacogenetic research, especially in strains known to differ in regard to specific neurotransmitter systems. DBA/2 mice differ from C57BL/6 mice in terms of both functional and anatomical characteristics of dopamine systems. Given the importance of D2 antagonism in the action of antipsychotic drugs and in theories regarding schizophrenia (i.e. the dopamine hypothesis), this study compared the discriminative stimulus properties of the atypical antipsychotic drug clozapine (CLZ) in C57BL/6 and DBA/2 inbred mice. DBA/2 and C57BL/6 mice were trained to discriminate 2.5 mg/kg of CLZ from vehicle in a two-lever drug discrimination procedure and tested with a variety of antipsychotic drugs and selective ligands. Both strains of mice readily acquired the CLZ discrimination. The atypical antipsychotic drugs olanzapine and risperidone fully substituted for CLZ in both DBA/2 and C57BL/6 mice, but ziprasidone fully substituted only in the C57BL/6 mice. The typical antipsychotic drug haloperidol produced partial substitution for CLZ in the DBA/2 mice, and the dopamine agonist amphetamine required a higher dose to reduce response rates significantly in DBA/2 mice as compared with C57BL/6 mice. Antagonism of serotonergic (5-HT2A/2B/2C) receptors with ritanserin and alpha1-adrenergic receptors with prazosin engendered CLZ-appropriate responding only in the C57BL/6 mice. Thus, while serotonergic and alpha-adrenergic antagonism were shown to be important for CLZ's discriminative cue in C57BL/6 mice, none of the selective ligands produced CLZ-appropriate responding in DBA/2 mice. Differences in dopamine-mediated functions between the two strains of mice may explain some of the findings in this study.     

Endocrine factors contributing to the ethanol preferences of rodents

Groups of C57 Bl/6j mice (alcohol preferring) and DBA/2j mice (alcohol avoiding) were fasted for 24 hours and administered glucose. At 30, 120 and 300 minutes after glucose, the C57 Bl/6j mice had significantly higher levels of plasma glucose than the DBA/2j strain. These differences were observed in comparable groups given either forced access or no access to alcohol. In ad lib fed animals never exposed to alcohol, C57 Bl/6j mice had higher levels of plasma insulin than DBA/2j mice. Plasma levels of glucose and corticosterone were not significantly different in ad lib or fasted animals. The injection of insulin zinc protamine to DBA/2j mice produced 100% convulsions within one hour, but produced no convulsions in C57 Bl/6j mice for as long as 4 hours after administration. These data demonstrate that an insulin resistancy exists in C57 Bl/6j mice which is not dependent upon any prior alcohol experience. Evidence supporting a functional relationship between this diabetogenic disturbance and alcohol preference was obtained in C57 Bl/6j mice which were allowed to choose between water or a 10% alcohol solution (v/v). Insulin zinc protamine produced a selective dose-dependent reduction in alcohol intake. Additional support is received from the discovery that Chinese hamsters, a species genetically predisposed to diabetes, display an impressive preference for 10% alcohol.     

Oxidation of alcohol in free-moving mice from high and low preference strains

Free-moving mice from the high-alcohol preference C57BL/6J strain and low-preference DBA/2J strain were slowly fed [2-14C]ethanol intragastrically until anesthesia was achieved. Behavior was monitored in a Plexiglas metabolic chamber while 14CO2 was simultaneously trapped to determine the rate of ethanol metabolism. Average time to the loss of the righting reflex in the DBA/2J was 21.9 min and 27.9 min for the C57BL/6J strain (p less than 0.005). Elimination of 14CO2 was slightly higher (n.s.) in the DBA/2J strain for the entire monitoring period. Infusion of ethanol via the tail vein yielded identical results indicating that the slower elimination rate in the C57BL/6J strain could not be the result of slower absorption across the gut wall. Infusion via the tail vein with radioactive sodium bicarbonate indicated that the DBA/2J strain has a higher rate of CO2 expiration (n.s.). Consequently, the higher rate of 14CO2 expiration from ethanol oxidation may not reflect a higher rate of metabolism. These results are discussed in terms of the apparent differences between these strains in neural sensitivity to ethanol.     

Genetic differences in plasma corticosterone levels in response to nicotine injection

Changes in plasma corticosterone (CCS) levels following intraperitoneal injections of nicotine were measured in four inbred mouse strains: DBA/2Ibg, C57BL/6Ibg, C3H/2Ibg, and A/J. In all four strains, nicotine produced a dose-dependent (0.5–2.0 mg/kg nicotine) increase in plasma CCS levels which peaked 10–30 min after injection. Saline increased plasma CCS levels in C57BL, A, and C3H, but not in DBA mice. After correcting for plasma CCS levels produced by saline injection, the nicotine-induced rise in plasma CCS was significantly lower for the C57BL strain than for the other three strains tested. These mouse strains also varied in their responses to saline injection with the rank order: C57BL > A = C3H > DBA. However, the two most divergent strains (C57BL and DBA) did not differ in the effects of a cold water stress. The response to nicotine was completely inhibited by mecamylamine in two strains tested (C3H and C57BL) whereas the response to saline injection was unaffected, suggesting that only the response to nicotine was mediated by nicotinic receptors. It is clear that elevations in plasma CCS induced either by saline injection or by nicotine are influenced by genetic factors.     

An analysis of cocaine effects on locomotor activities and heart rate in four inbred mouse strains

The effects of cocaine on Y-maze activity and heart rate have been examined in four inbred strains of mouse (BALB, C57BL, C3H and DBA). In addition, brain [3H]-cocaine concentrations were measured at the time of maximal response to cocaine. Cocaine produced a dose-related increase in Y-maze cross activity in C3H, DBA and C57BL, with C3H mice being considerably more sensitive than DBA or C57BL. Cocaine was without effect on Y-maze cross activity in BALB mice. Cocaine produced a biphasic effect on rearing activity in C3H mice, a dose related depression in BALB mice, and was without effect on C57BL and DBA mice. At the highest dose studied (15 mg/kg), cocaine produced a small decrease in heart rate in C3H mice. Strain differences in behavior were maximal 15 minutes after a dose of 5 mg/kg, IP. At this dose and time interval, brain [3H]-cocaine concentrations were not significantly different among the four strains of mice. The results suggest a genetically-determined difference in CNS sensitivity to cocaine.     

Comparative metabolism of benzene and trans,trans-muconaldehyde to trans,trans-muconic acid in DBA/2N and C57BL/6 mice

Our laboratory recently identified trans,trans-muconaldehyde (MUC), a six-carbon diene dialdehyde, as a hematotoxic microsomal metabolite of benzene (Latriano et al., Proc Natl Acad Sci USA 83: 8356-8360, 1986). We also showed that MUC is metabolized in vitro to trans,trans-muconic acid (MA), a six-carbon diene dicarboxylic acid and known urinary metabolite of benzene. To elucidate further the role of ring-opened metabolites in benzene toxicity, the metabolism of benzene and MUC was examined in the benzene sensitive DBA/2N mouse strain and the less benzene sensitive C57BL/6 strain. A sensitive assay for urinary MA analysis was developed. The percent of benzene dose excreted as urinary MA within the first 24 hr after treatment decreased with an increase in benzene dose, i.e. from 9.8 to 0.4% in DBA/2N mice and from 17.6 to 0.2% in C57BL/6 mice treated with 0.5 to 880 mg/kg benzene. DBA/2N mice excreted significantly (P less than or equal to 0.05) more MA compared with C57BL/6 mice after treatment with hematotoxic benzene doses (220-880 mg/kg). At low benzene doses (0.5 to 2.5 mg/kg), C57BL/6 mice excreted significantly (P less than or equal to 0.05) more MA compared with DBA/2N mice. There were no significant differences in the metabolism of MUC to MA between the two strains after treatment with 0.5 to 3.0 mg/kg. Furthermore, mice from both strains excreted similar amounts of muconic acid when treated with 0.7 to 7.1 mg/kg MA. These results are consistent with the hypothesis that reactive ring-opened metabolites such as trans,trans-muconaldehyde play a role in benzene hematotoxicity. Sensitivity towards benzene may be due, in part, to increased metabolism to ring-opened compounds.     

Effects of naloxone and naltrexone on locomotor activity in C57BL/6 and DBA/2 mice

Administration of naloxone or naltrexone in DBA/2 (DBA) mice was followed by dose related depressant effects. The locomotor activity of the C57BL/6 (C57) mice injected with naltrexone was also depressed. Low doses of naloxone induced a decrease in activity in the C57 strain. This effect gradually disappeared at intermediate doses and recurred again at higher doses. The results are discussed in terms of differences in type number and/or distribution of the receptors influenced by naloxone and naltrexone in the two strains of mice tested.     

Strain-dependent behavioural sensitization to amphetamine: role of environmental influences

Repeated daily pairings of 1mg/kg of amphetamine and test environment induced a large, significant increase of locomotion in mice of the C57BL/6 strain, while a slight, non-significant increase was observed in mice of the DBA/2 strain. Neither C57BL/6 nor DBA/2 mice showed behavioral sensitization to amphetamine in the test cages when the drug was repeatedly administered in their home cage. Moreover, C57BL/6 but not DBA/2 mice showed conditioned hyperactivity. Subsequently six daily pairings of saline and test cage produced a slight, non-significant reduction of the hyperactive response shown by C57BL/6 mice, accompanied by a further increase in the behavioural effect of amphetamine. Finally, a similar, significant context-independent sensitization (unpaired vs control) was observed in mice of the two strains subjected to pairings of saline with the test cage; while context-dependent sensitization (paired vs unpaired) was observed only in C57BL/6 mice. Naive DBA/2 were less susceptible than C57BL/6 mice to the behavioural effect of high doses of amphetamine. However, effects of the low dose of amphetamine used in this experiment did not show strain differences in naive mice. These results show that C57BL/6 are more susceptible than DBA/2 mice to context-dependent behavioural sensitization to amphetamine. Moreover, they suggest that neither conditioned hyperactivity nor context-independent sensitization account for strain differences in environment-specific behavioural sensitization.     

Antagonism of the behavioral effects of ethanol by naltrexone in BALB/c,C57BL/6, and DBA/2 mice

The effects of naltrexone on the increase in locomotor activity induced by a low dose (1.35 g/kg IP) of ethanol and on the duration of loss of righting reflex after a high dose (3.5 g/kg) of ethanol were studied in BALB/c, DBA/2, and C57BL/6 mice. Ethanol increased locomotor activity in DBA and BALB mice, but not in C57BL mice. Naltrexone, at a dose of 0.1 mg/kg, antagonized the ethanol-induced increase in locomotion similarly in DBA and BALB mice. The duration of loss of righting reflex was, however, differentially affected in all three strains by naltrexone. The BALB mice affected in all three strains by naltrexone. The BALB mice were the most sensitive strain (1 mg/kg naltrexone significantly counteracted ethanol hypnosis), the C57BL mice were intermediate (8 mg/kg naltrexone required to antagonize this effect of ethanol), and the DBA mice were least sensitive (no effect evident even at the highest dose of 8 mg/kg) to naltrexone. Thus, naltrexone could antagonize the behavioral effects of a low and high dose of ethanol, but the three strains, which differ in their behavioral response to ethanol, also were differentially sensitive to the effect of naltrexone in reversing ethanol-induced hypnosis and ethanol-induced changes in locomotor activity.     

Genetic variation of basal iron status, ferritin and iron regulatory protein in mice: potential for modulation of oxidative stress

Toxic and carcinogenic free radical processes induced by drugs and other chemicals are probably modulated by the participation of available iron. To see whether endogenous iron was genetically variable in normal mice, the common strains C57BL/10ScSn, C57BL/6J, BALB/c, DBA/2, and SWR were examined for major differences in their hepatic non-heme iron contents. Levels in SWR mice were 3- to 5-fold higher than in the two C57BL strains, with intermediate levels in DBA/2 and BALB/c mice. Concentrations in kidney, lung, and especially spleen of SWR mice were also greater than those in C57BL mice. Non-denaturing PAGE of hepatic ferritin from all strains showed a major holoferritin band at approximately 600 kDa, with SWR mice having > 3-fold higher levels than C57BL strains. SDS PAGE showed a band of 22 kDa, mainly representing L-ferritin subunits. A trace of a subunit at 18 kDa was also detected in ferritin from SWR mice. The 18 kDa subunit and a 500 kDa holoferritin from which it originates were observed in all strains after parenteral iron overload, and there was no major variation in ferritin patterns. Although iron uptake studies showed no evidence for differential duodenal absorption between strains to explain the variation in basal iron levels, acquisition of absorbed iron by the liver was significantly higher in SWR mice than C57BL/6J. As with iron and ferritin contents, total iron regulatory protein (IRP-1) binding capacity for mRNA iron responsive element (IRE) and actual IRE/IRP binding in the liver were significantly greater in SWR than C57BL/6J mice. Cytosolic aconitase activity, representing unbound IRP-1, tended to be lower in the former strain. SWR mice were more susceptible than C57BL/10ScSn mice to the toxic action of diquat, which is thought to involve iron catalysis. If extrapolated to humans, the findings could suggest that some people might have the propensity for greater basal hepatic iron stores than others, which might make them more susceptible to iron-catalysed toxicity caused by oxidants.     

Differential effects of scopolamine and D-amphetamine on avoidance: Strain interactions.

In a discriminated Y-maze avoidance task it was observed that mice of the A/J strain were superior to mice of the DBA/2J strain, which in turn made more avoidance responses than C57BL/6J mice. Moreover, the A strain was also observed to acquire a discrimination problem more readily than either of the other strains. Administration of scopolamine enhanced active avoidance performance in A, but not DBA/2 or C57BL/6 mice. D-Amphetamine improved performance in both A and DBA/2 mice but had negligible effects on the performance of the C57BL/6 strain. Neither drug affected discrimination performance irrespective of strain. In an inhibitory avoidance task the C57BL/6 strain was found to perform more poorly than the A strain which was inferior to DBA/2 mice. Scopolamine disrupted performance in all three strains, while d-amphetamine was found to disrupt the performance of the A and DBA/2 strains only. The results were interpreted in terms of the role of associative and nonassociative effects of shock in modulating avoidance behavior.     

Susceptibility to conditioned place preference induced by addictive drugs in mice of the C57BL/6 and DBA/2 inbred strains

Rationale In previous studies, we have demonstrated that mice of the inbred strain C57BL/6J (C57) are more susceptible to amphetamine-induced conditioned place preference (CPP) than DBA/2J (DBA) mice. Moreover, we also observed parallel strain differences for the locomotor-stimulant effects of the drug. However, other studies have reported either no difference or opposite strain differences for cocaine- and morphine-induced CPP as well as for the locomotor effects of these drugs, suggesting that amphetamine-related behavioral phenotypes might depend on a specific pharmacological action of the psychostimulant. Objectives This study was aimed at testing strain differences for cocaine- and morphine-related behavioral phenotypes in the same experimental protocol and conditions previously used for amphetamine. Methods C57 and DBA mice were tested for CPP induced by cocaine (0, 5, 10, and 20 mg/kg) and morphine (0, 5, 7.5, and 10 mg/kg). Locomotor activity data were simultaneously obtained by measuring distance moved during all different CPP phases and unconditioned locomotor activity, behavioral sensitization and conditioned hyperactivity were measured together with CPP. Results (a) Either cocaine or morphine promoted significant CPP at lower doses in C57 than in DBA mice; (b) only drug-trained C57 mice showed a significant CPP compared with the control group; and (c) only C57 mice showed dose-dependent effects of cocaine on CPP. Moreover, there was no relationship between drug-induced CPP and locomotion. Conclusions The results demonstrate that C57 and DBA mice differ in their sensitivity to cocaine- and morphine-induced CPP and suggest that the two strains differ in sensitivity to the positive incentive properties of drugs of abuse.     

Contributions of taste factors and gender to opioid preference in C57BL and DBA mice

C57BL/6J and DBA/2J mouse strains have been characterized as morphine preferrers and avoiders, respectively (Horowitz et al. 1977). Previously, sweetened morphine solutions were presented with a water alternative, primarily with male subjects. Because sweetness may affect the endogenous opioid system and rodents have shown strain and sex differences in taste preferences, this study looked for strain- and gender-related taste preferences that might have affected opiate consumption. Preference for sweetened and unsweetened morphine and etonitazene was compared across gender and strain. In all choice tests, the control was a similar tasting quinine sulphate solution. Under these conditions, C57BL/6J mice continued to show strong preference for morphine. However, DBA/2J mice drank approximately equal amounts of morphine and quinine solutions, rather than avoiding morphine as when water was the alternative. Both strains appeared surprisingly indifferent to the synthetic opioid etonitazene, compared because it is potent at concentrations having barely perceptible bitterness. This raises the possibility of unexpected differences in post-ingestional effects between morphine and etonitazene. Contrary to reports of gender differences in sweet preference in rats, none were found in either strain of mouse. Neither were there any significant sex differences in opiate preference in either strain. C57 mice preferred sweetness more than did DBA mice.     

Biodisposition of theophylline. II. Effect of aromatic hydrocarbon treatment in mice

The effect of polycyclic aromatic hydrocarbons on theophylline clearance was examined in six inbred mice strains. The DBA/2 and SJL strains were nonresponsive to this treatment, whereas C3H/HeJ, C57BL/6, BALB/c, and A/J strains were responsive. In the responsive strains, the total body clearance increased by a factor of 2.3 to 3.4, apparently due to a general induction of all metabolic pathways. The production of 1,3-dimethyluric acid was not increased in the C57BL/6 strain. The variation in induction among responsive strains appeared to be primarily associated with the increase in the oxidation to 1,3-dimethyluric acid.