Black agouti (ACI) rats show greater drug- and cue-induced reinstatement of methamphetamine-seeking behavior than Fischer 344 and Lewis rats

Fischer 344 (F344) and Lewis (LEW) rats differ in methamphetamine self-administration (SA) and methamphetamine-induced reinstatement of previously extinguished behavior. We sought to determine whether genetic background also influences methamphetamine reinforcement efficacy, conditioned reinstatement, and methamphetamine-primed reinstatement of responding in F344, LEW, and Black Agouti (ACI) rats. We implanted rats with jugular catheters and trained them to self-administer methamphetamine (0.06 mg/kg/infusion) under a progressive ratio (PR) schedule of reinforcement during daily 2-h SA sessions. A compound stimulus (light+tone; LT) was paired with each infusion. Dose-dependent intake was determined for each rat. Rats then entered the extinction phase of the experiment where responding resulted in no programmed consequences. Following extinction sessions, rats underwent conditioned reinstatement testing. For conditioned reinstatement, rats received response-contingent presentations of the LT and no methamphetamine. Last, methamphetamine-primed reinstatement test sessions where conducted where subjects received experimenter delivered infusions of methamphetamine (0.06, 0.12, or 0.24 mg/kg). The strains did not differ in PR responding across the doses tested. The ACI rats demonstrated the highest behavioral output during extinction training, conditioned- and methamphetamine-primed reinstatement of previously extinguished behavior compared to the other strains. These data suggest that genetic background differentially influences extinction, conditioned reinstatement and methamphetamine-primed reinstatement in rats.     

Different patterns of pharmacological reinstatement of cocaine-seeking behavior between Fischer 344 and Lewis rats

Rationale Fischer 344 (F344) and Lewis (LEW) rats differ in cocaine self-administration behaviors. Whether or not these inbred strains of rats differ in pharmacological reinstatement of cocaine-seeking behavior is unknown.Objectives The purpose of the present study was to determine if inbred strains of rats demonstrate differences in alpha-amino-3-hydroxy-5-methylisoxazole-4-proprionic acid (AMPA) and cocaine-induced reinstatement of previously extinguished cocaine-seeking behavior.Methods F344 and LEW rats received indwelling jugular catheters, bilateral guide cannula aimed at the nucleus accumbens core, and were trained to lever press for 0.5 mg/kg intravenous cocaine during 2-h self-administration sessions. Following 14 sessions, rats underwent extinction sessions, where previously reinforced lever pressing resulted in no programmed consequences. Just prior to beginning extinction session 7, rats received an intracranial infusion of saline. Lever pressing was not reinforced. During subsequent extinction sessions, rats received AMPA injections (0.2, 0.4, or 0.6 nM). Dosing order was determined by a within-subject Latin square design. At least two extinction sessions separated each AMPA session. Rats then underwent cocaine-induced reinstatement test sessions (lever pressing was not reinforced). Rats received passive intravenous cocaine (0.0, 0.5, 1.0, or 2.0 mg/kg) after being placed in the experimental chamber. At least two extinction sessions separated each cocaine-prime session, and subjects were tested at each dose according to a within-subjects Latin square design.Results LEW rats demonstrated blunted maximal responding to AMPA-induced reinstatement and heightened sensitivity to cocaine-induced reinstatement compared with F344 rats.Conclusions This study demonstrates that inbred strains differ in pharmacological reinstatement of cocaine-seeking behavior.     

Food deprivation affects extinction and reinstatement of responding in rats

Food deprivation has been shown to increase the self-administration of a wide variety of drugs in a number of different species. However, the effects of food deprivation on other phases of drug taking have not been established. The purpose of the present study was to evaluate the effects of food deprivation on reinstatement of responding for cocaine. Rats trained to self-administer 0.2, 0.4, or 1.0 mg/kg cocaine intravenously (IV) under a fixed-ratio 1 schedule for the first 2 h during daily 7-h sessions were fed either before or after the experimental session. During hours 3–7, rats self-administered saline. Saline replaced cocaine in the infusion pumps at the beginning of hour 3 and a priming injection of either saline or cocaine (0.32, 1.0, or 3.2 mg/kg IV) was administered at the beginning of hour 4. The number of infusions that was self-administered was measured throughout the 7-h session. During hours 1 and 2 when cocaine was available, the number of infusions was inversely related to cocaine dose. During hour 3, rats typically self-administered several infusions of saline, which gradually decreased to near-zero levels by hours 4–7 (extinction responding). A priming injection of cocaine administered at the beginning of hour 4 reinstated responding in a dose-related manner. The magnitude of extinction responding during hour 3 and reinstatement of responding during hour 4 were similar regardless of cocaine maintenance dose. However, responding during hour 4 did increase in all cocaine maintenance dose groups when rats were fed before versus after the session. The effects of food deprivation level (8–12 g, 20 g, unlimited food) and time of feeding (before versus after the session) were also assessed in rats maintained at 0.4 mg/kg cocaine. While the magnitude of reinstatement of responding during hour 4 did not vary as a function of food level, extinction responding during hour 3 was significantly increased in rats maintained at the lowest food level (8–12 g) when feeding occurred after the session. These results suggest that food deprivation level and time of feeding, but not cocaine maintenance dose, are important variables in altering extinction and reinstatement of responding.     

Strain differences between Lewis and Fischer 344 rats in the modulation of dopaminergic receptors after morphine self-administration and during extinction

The Lewis (LEW) and Fischer 344 (F344) rat strains have been used as a model to study genetic vulnerability to drug addiction and they differ in their dopaminergic systems. We have studied the variation in the D1-like and D2-like receptors in distinct brain regions of LEW and F344 rats that self-administered morphine (1 mg/kg) for 15 days and also after different extinction periods (3, 7 and 15 days). Under basal conditions, binding to D1-like receptors in the olfactory tubercle and substantia nigra, and to D2-like receptors in the Pyriform cortex and hippocampal-CA1 was lower in LEW rats than in F344 rats. Conversely, the LEW rats exhibited stronger D2-like binding in the caudate-putamen. In most brain regions there was a decrease in D1-like binding in LEW rats after self-administration while the F344 animals displayed an increment. Additionally, D2 receptors of LEW rats were down-regulated after self-administration in the caudate-putamen and in the nucleus accumbens (shell and core divisions). Binding to D1-like receptors increased in both strains in the early phases of extinction, while in the later stages a differential regulation was observed between both strains. During the early phases of extinction only F344 rats showed alterations in D2-like receptor binding, however in the latter phases a specific modulation occurred in both strains. These differences in basal D1-like and D2-like receptor binding, and their differential modulation after self-administration and during extinction, may be reflected in the greater vulnerability to opiate addiction shown by LEW strain.     

Concurrent access to sucrose pellets decreases methamphetamine-seeking behavior in Lewis rats

Investigation of the role of choice between use of drugs of abuse and pursuit of alternative non-drug reinforcers is receiving greater attention. An understanding of the determinants influencing choice between drugs and alternative reinforcers will eventually lead to an understanding to the neural substrates of the drug altered brain. We investigated the impact of concurrent access to sucrose pellets on methamphetamine self-administration and self-regulated reinstatement of methamphetamine seeking following extinction training in Lewis rats. Our results from the self-administration experiment show that rats with concurrent access to sucrose self-administered significantly less methamphetamine compared to the methamphetamine only group. For our extinction/reinstatement experiment, concurrent access to sucrose during self-regulated methamphetamine reinstatement reduced methamphetamine intake and non-reinforced methamphetamine-seeking behavior in rats compared to rats that received access to just methamphetamine. These findings indicate that concurrent access to alternative reinforcers during various stages of methamphetamine-seeking behavior robustly decreased methamphetamine intake and serves as a valid rodent choice paradigm.     

Differences in performance between Sprague-Dawley and Fischer 344 rats in positive reinforcement tasks

This experimental investigation tested two different strains of rat, Sprague-Dawley (SD) and Fischer 344 (F344), in their ability to learn lever pressing for food (autoshaping) or intracranial self-administration (ICSA) of dextroamphetamine (AMPH) into the nucleus accumbens (NAcc). Additionally, a unique method of intracranial drug delivery was utilized, via reverse dialysis, by the use of a microdiaylsis probe. The experiments revealed definite behavioral differences between SD and F344 animals. The autoshaping data indicated that SD rats, on average, acquired lever pressing for food in fewer training days than F344 rats. Also, the ICSA experiment revealed that SD rats self-administered AMPH at a 30 mug/mul concentration. Lever pressing was significantly greater in those SD rats receiving AMPH than in the F344 drug group. Furthermore, the F344 rats never acquired lever pressing for intra-NAcc delivery of AMPH under our testing regime. These data reveal differences in performance of positively reinforced operant tasks between the inbred F344 rats as compared to the outbred SD strain.     

Spontaneous withdrawal in opiate-dependent Fischer 344, Lewis and Sprague-Dawley rats

The Lewis (LEW) and Fischer 344 (F344) inbred rat strains react differentially to acute morphine administration for a variety of behavioral and neurochemical measures. Investigations into effects of chronic morphine are less common, and investigations assessing dependence have been limited to those utilizing antagonist-precipitated withdrawal. The present experiment extended these assessments by examining spontaneous withdrawal in the LEW and F344 strains. In this preparation, males of the LEW, F344 and the outbred Sprague-Dawley (SD) strain were made dependent on morphine. Following this, opiate administration was terminated and animals were examined for spontaneous withdrawal by the acquisition of a withdrawal-associated taste aversion, changes in body weight loss and the display of several behaviors characteristic of opiate withdrawal. Although all morphine-treated subjects decreased body weight and avoided consumption of the withdrawal-associated solution, indicating successful induction of dependence, no difference between the strains emerged in these indices of withdrawal severity. The only strain difference to appear in the behavioral indicators of withdrawal was with diarrhea (LEW > F344). That the strains differ in acute reactivity to opioids, but not in the overall severity of withdrawal, was discussed in relation to the need to examine the relationship between neurochemical and behavioral data in a variety of neural systems and behavioral endpoints.     

Effects of clomipramine on self-control choice in Lewis and Fischer 344 rats

Rates of delay discounting (impulsive choice) have been shown to vary among individuals, particularly people who abuse drugs relative to those who do not, but factors that may contribute to these differences have not been identified. To explore a role for possible genetic and neurochemical determinants, Lewis (n = 8) and Fischer 344 (n = 8) rats were allowed to choose between one food pellet delivered immediately and three food pellets delivered after increasing delays. The delays to the large reinforcer (0, 10, 20, 40, 60 s) were increased across five blocks of trials in daily experimental sessions. For both groups of rats, choice for the larger reinforcer decreased as the delay to presentation increased. However, the Lewis rats were more likely to choose the smaller, immediate reinforcer earlier in the session, i.e., at shorter large-reinforcer delays, than the Fisher 344 rats. This difference in choice was statistically significant. Repeated administration of 3.0 mg/kg, i.p. clomipramine (mean of last five sessions) did not significantly alter choice, relative to baseline, for either strain. The present findings suggest that differences in delay discounting/impulsive choice may involve genetic, e.g., neurochemical, differences.     

Modulation of the endogenous opioid system after morphine self-administration and during its extinction: a study in Lewis and Fischer 344 rats

Lewis (LEW) and Fischer 344 (F344) rats show differential morphine self-administration rates. In this study, after animals of both strains self-administered morphine (1mg/kg) or extinguished this behaviour for 3, 7 or 15days, we measured the binding to, and functional state of mu opioid receptors (MORs) as well as proenkephalin (PENK) mRNA content in several brain regions. The results showed that in most brain areas: 1) LEW rats had less binding to MORs in basal conditions than F344 rats; 2) after morphine self-administration, either one of the strains or both (depending on the brain area) showed increased levels of binding to MORs as compared to basal groups; and 3) these binding levels in morphine self-administration animals came down in each extinction group. Moreover, F344 rats exhibited, in general, an increased functionality of MORs after morphine self-administration, as compared to basal groups, which also went down during extinction. Finally, the basal content of PENK mRNA was lower in LEW rats than in F344 rats and it decreased more after self-administration; during extinction, the levels of PENK mRNA got normalized in this strain. This differential modulation of the endogenous opioid system might be related to the different rates of morphine self-administration behavior exhibited by both inbred rat strains.     

A comparison of economic demand and conditioned-cued reinstatement of methamphetamine-seeking or food-seeking in rats

This study examined whether continued access to methamphetamine or food reinforcement changed economic demand for both. The relationship between demand elasticity and cue-induced reinstatement was also determined. Male Long-Evans rats were lever pressed under increasing fixed-ratio requirements for either food pellets or methamphetamine (20 μg/50 μl infusion). For two groups, demand curves were obtained before and after continued access (12 days, 2-h sessions) to the reinforcer under a fixed-ratio 3 schedule. A third group was given continued access to methamphetamine between determinations of food demand and a fourth group abstained from methamphetamine between determinations. All groups underwent extinction sessions, followed by a cue-induced reinstatement test. Although food demand was less elastic than methamphetamine demand, continued access to methamphetamine shifted the methamphetamine demand curve upward and the food demand curve downward. In some rats, methamphetamine demand also became less elastic. Continued access to food had no effect on food demand. Reinstatement was higher after continued access to methamphetamine relative to food. For methamphetamine, elasticity and reinstatement measures were correlated. Continued access to methamphetamine, but not food, alters demand in ways suggestive of methamphetamine accruing reinforcing strength. Demand elasticity thus provides a useful measure of abuse liability that may predict future relapse to renewed drug-seeking and drug use.     

Pharmacokinetics of o-nitroanisole in Fischer 344 rats

The pharmacokinetics and metabolism of o-nitroanisole (ONA) were studied in male Fischer 344 rats. Three dose levels of [14C]ONA (5.0, 50, or 500 mg/kg) were administered orally to rats and daily excreta were analyzed for 14C. Since the highest dose altered the urinary excretion rate of ONA, a dose of 25 mg/kg was used for subsequent pharmacokinetic studies. Following a single 25 mg/kg iv dose of [14C]ONA, blood, tissues, and excreta were collected at times ranging from 15 min to 7 days. Urinary excretion accounted for 82% of the dose by 24 hr and 86% by 7 days. Fecal excretion was 7.5% in 24 hr and 9.0% by 7 days. Fifteen min after ONA administration, most of the 14C content was found in muscle (20%), skin (10%), adipose tissue (6.8%), and blood (6.5%). All other tissues contained less than 5% of the dose. Within 8 hr, less than 1% of the dose was present in any tissue. The initial elimination t1/2 for 14C in all tissues was 1-2 hr and the terminal t1/2 was approximately 4 days. The elimination of parent ONA from blood followed first order biphasic elimination kinetics (initial t1/2 = 30 min; terminal t1/2 = 2.2 hr). Parent ONA was rapidly eliminated from all other tissues in a monophasic manner (t1/2 = 15 min to 2 hr). Skin and fat demonstrated an uptake phase prior to the elimination of parent. Only 0.5% of the dose was excreted as ONA in the urine. Urinary metabolites of ONA were predominantly conjugated compounds (63% as sulfates; 11% as glucuronides).     

Strain differences in delay discounting between Lewis and Fischer 344 rats at baseline and following acute and chronic administration of d-amphetamine

Stimulant drugs have been shown either to increase or decrease rates of delay discounting (impulsive choice). These mixed findings may result from genetic, neurochemical, or environmental factors. Lewis (LEW) and Fischer 344 (F344) rats have neurochemical and behavioral differences that may be relevant to delay discounting and were used to examine effects of acute and chronic administration of d-amphetamine (d-AMP) on impulsive choice using a within-session delay-discounting procedure. Male LEW (n = 8) and F344 (n = 8) rats chose between one food pellet delivered immediately and three food pellets delivered after an increasing delay. Saline and d-AMP (0.1, 0.3, 1.0, and 1.7 mg/kg) were tested acutely and during chronic d-AMP exposure. Choice for the larger reinforcer decreased as the delay to its presentation increased for both strains at baseline. LEW rats made more impulsive choices than F344 rats as indicated by shorter indifference points, and this is consistent with previous research. Acute administration of d-AMP dose dependently increased larger-reinforcer choice and area under the curve (AUC) for LEW, but not F344 rats. During chronic exposure to d-AMP, larger-reinforcer choice and AUC increased relative to acute administration for F344 rats responding in shorter delay series, but not for F344 rats responding in longer delay series or for LEW rats. Differential effects of acute and chronic administration of d-AMP on impulsive choice in LEW and F344 rats may be a result of various factors, including genetic, neurochemical, and environmental variables. Future research should attempt to tease apart the relative contribution of each of these factors on impulsive choice.     

Mecamylamine-precipitated nicotine-withdrawal aversion in Lewis and Fischer 344 inbred rat strains

Many studies have indicated that Lewis and Fischer 344 inbred rat strains show marked differences in behavioral responses to abused drugs. In the present study, we sought to determine whether these two strains of rats show different responses in mecamylamine-precipitated nicotine-withdrawal aversion using the conditioned place preference paradigm. Rats were treated subcutaneously with 10 mg/kg/day nicotine for 7 days using an osmotic minipump. After chronic nicotine infusion, the nicotinic receptor antagonist mecamylamine produced a significant place aversion in Lewis, but not in Fischer 344 rats. These results suggest that mecamylamine-precipitated nicotine-withdrawal aversion is strongly regulated by genetic factors.     

Effects of acute and chronic administration of diazepam on delay discounting in Lewis and Fischer 344 rats

Impulsive choice is often examined using a delay-discounting procedure, where there is a choice between two reinforcers of different magnitudes presented at varying delays. Individual discounting rates can be influenced by many factors including strain differences and drug effects. Lewis (LEW) and Fischer 344 (F344) rats have behavioral and neurochemical differences relevant to delay discounting and were used to examine effects of acute and chronic administration of diazepam on impulsive choice. Consistent with the previous literature, larger-reinforcer choice decreased as a function of increasing delays for all rats, and steeper discounting functions were obtained for LEW relative to F344 rats. Acute and chronic administration of diazepam resulted in differential effects between rat strains and sometimes between subjects within the same rat strain. Overall, larger-reinforcer choice remained unchanged across multiple phases of the experiment for LEW rats. For F344 rats, larger-reinforcer choice increased following the acute administration of smaller doses of diazepam and decreased following the acute administration of the largest dose tested. Decreases in larger-reinforcer choice occurred for F344 rats during chronic and postchronic administration and persisted throughout a nondrug return-to-baseline phase. These results suggest potential directions for future investigation of environmental, genetic, and neurochemical variables involved in delay discounting.     

Amiodarone-induced pulmonary fibrosis in Fischer 344 rats

Amiodarone is a potent antiarrhythmic agent with a number of side-effects, the most serious being the development of pulmonary toxicity. The purpose of the study was to determine if a single intratracheal instillation of amiodarone would induce pulmonary fibrosis and associated functional changes in rats. Female Fischer 344 rats were given a single intratracheal instillation of 200 μl containing 1.25 mg amiodarone (n = 9) while the control group received an equivalent volume of sterile water (n = 8). After 6 weeks, pulmonary function tests, lung hydroxyproline measurements and lung histology were performed. The amiodarone-treated animals showed a significant reduction in the coefficient of diffusion (kCO) and a significant increase in lung hydroxyproline levels as compared to the control group. The treated group had abnormal histology including areas of septal thickening with cellular infiltration of the interstitial and alveolar spaces, whereas the control group had normal histology. These observations suggest that the intratracheal instillation route of amiodarone treatment produces a fibrotic response in rats that can be measured physiologically, biochemically and histologically. This model may aid in the elucidation of the mechanism of amiodarone-induced pulmonary toxicity (AIPT)./ABS.     

Assessment of the aversive effects of peripheral mu opioid receptor agonism in Fischer 344 and Lewis rats

The Fischer 344 (F344) and Lewis (LEW) inbred rat strains differ on a host of biochemical, neuroanatomical, immunological and behavioral endpoints. One behavioral difference of interest is their differential reactivity to the aversive effects of morphine as indexed by the conditioned taste aversion preparation (aversions acquired by F344 rats are significantly greater than those acquired by the LEW strain). This differential effect appears to be specific to opioids that work primarily on the mu opioid receptor. Given that morphine works systemically, it is unknown whether these differential effects in F344 and LEW animals are centrally or peripherally mediated. To address this issue, the present study investigated the ability of the peripherally acting mu preferring opioid agonist loperamide to induce differential taste aversions in F344 and LEW animals. Both F344 and LEW animals acquired dose-dependent taste aversions to the loperamide-associated solution with no difference between them. Additionally, control animals initially injected with vehicle during aversion training with loperamide and subsequently conditioned with morphine displayed the typical aversive profile to morphine (F344 > LEW). Although the basis for the present data is unknown, their relation to morphine-induced taste aversions and the role of the interaction of stimulus effects of drugs that produce differential abuse liability were discussed.     

Subchronic toxicity of trinitrotoluene in Fischer 344 rats rats

This study was conducted to evaluate the toxicity of trinitrotoluene (TNT) in Fischer 344 rats when administered in the diet for 13 weeks. Groups of 10 rats per sex received TNT at doses of 1, 5, 25, 125 or 300 mg/kg/day. Thirty rats per sex served as untreated controls. Toxicologic endpoints included clinical signs, body weight, food consumption, hematology, clinical biochemistry, organ weights and gross/histopathology. Toxic effects following 125 mg/kg/day or greater included decreased food intake and body weight gain, elevated serum cholesterol levels, and anemia (reduced hemoglobin, hematocrit and RBC counts). Splenomegaly, hepatomegaly/hepatocytomegaly and testicular atrophy with degeneration of the seminiferous tubular epithelium were also seen at 125 and 300 mg/kg/day. Hemosiderin-laden macrophages, congestion of the splenic red pulp, methemoglobin production indicative of the oxidizing activity of TNT and/or its metabolites, and the lack of bone marrow toxicity suggested hemolysis as the mechanism of anemia.     

Toxicokinetics of acrylamide and glycidamide in Fischer 344 rats

Acrylamide (AA) is a widely studied industrial chemical that is neurotoxic, mutagenic to somatic and germ cells, and carcinogenic in rodents. The recent discovery of AA at ppm levels in a wide variety of commonly consumed foods has energized research efforts worldwide to define toxic mechanisms, particularly toxicokinetics and bioavailability. This study compares the toxicokinetics of AA and its epoxide metabolite, glycidamide (GA), in serum and tissues of male and female F344 rats following acute exposure by intravenous, gavage, and dietary routes at 0.1 mg/kg AA or intravenous and gavage routes with an equimolar amount of GA. AA was rapidly absorbed after oral dosing, was widely distributed to tissues, was efficiently converted to GA, and produced increased levels of GA-DNA adducts in liver. GA was also rapidly absorbed, widely distributed to tissues, and produced increased liver DNA adduct levels. AA bioavailability after aqueous gavage was 60--98% and from the diet was 32--44%; however, first-pass metabolism or other kinetic change resulted in much higher internal exposures to GA (2- to 7-fold) when compared to the intravenous route. A similar effect on metabolism to GA following oral administration was previously observed under an identical exposure paradigm in mice. Furthermore, DNA adduct formation in rat liver showed the same proportionality with the respective GA AUC value as did mice in the previous study. These findings suggest that as the AA content in food is reduced, species-differences in GA formation and subsequent DNA adduct formation may be minimized. These findings provide additional information needed to assess genotoxic risks from the low levels of AA that are pervasive in the food supply.     

Etonitazene delivered orally serves as a reinforcer for Lewis but not Fischer 344 rats.

Oral etonitazene self-administration was systematically investigated in two inbred strains of rats, Lewis (LEW) and Fischer 344 (F344). For LEW rats, etonitazene maintained higher rates of lever pressing and was consumed in larger volumes than the water vehicle when the reinforcement schedule was fixed ratio (FR) 8. In contrast, with F344 rats responding did not systematically exceed water values at any etonitazene concentration. LEW rats also drank substantially more etonitazene than F344 rats, and at FR 8 only LEW rats showed the typical inverted U-shaped function between etonitazene concentration and number of responses. For the LEW strain, response rate increased as FR size increased from FR 1 to FR 2 and FR 4, but decreased at FR 8. For the F344 strain, as FR size increased response rate showed small increases, but the response rates were far lower than those of the LEW strain. The results support the conclusion that etonitazene was an effective reinforcer for LEW but not F344 rats. These findings demonstrate genetic differences in opioid reinforcement of operant behavior and indicate that genotype can be an important determinant of whether etonitazene serves as a reinforcer.     

Lithium-chloride-induced conditioned taste aversions in the Lewis and Fischer 344 rat strains

Conditioned taste aversions (CTAs) are differentially induced by cocaine and morphine in the Lewis and Fisher 344 (LEW and F344, respectively) rat strains. Although the acquisition of LiCl-induced aversions has recently been reported to be comparable between the two strains, these aversions were induced by the oral consumption of LiCl, and the possibility exists that, given their different weights, that differential doses were functionally administered. To address the issue of LiCl-induced aversions in LEW and F344 rats (and to control for this possible confound), the present study assessed the ability of intraperitoneally (ip) administered LiCl to induce aversions in the two strains. Specifically, rats from both strains were given 20-min access to saccharin and injected immediately, thereafter, with 0.3, 0.6, 0.9 or 1.2 mEq/kg, 0.15 M LiCl (or its distilled water vehicle). Under these conditions, both strains acquired dose-dependent aversions that increased over repeated trials. Although there was no overall strain difference in LiCl-induced aversions, LEW rats displayed a stronger aversion at the 0.3 mEq/kg dose (on Trial 3) and acquired the aversion at this dose more rapidly than the F344 rats did (by Trial 2 vs. Trial 3). Although evident, this strain difference with LiCl does not parallel that reported with morphine (in which F344 rats are more sensitive than LEW rats) or with cocaine (in which the differences between LEW and F344 rats are larger and occur at more doses and on more trials). These cross-drug comparisons suggest that strain differences in aversion learning are drug dependent. Because drug acceptability has been reported to be a function of the balance between the reinforcing and aversive effects of various compounds, the examination of possible strain differences in aversion learning with a range of such compounds may provide insight into drug acceptability (and use) in these strains.