Parabrachial gustatory lesions impair taste aversion learning in rats.

Lesions in the gustatory zone of the parabrachial nuclei (PBN) severely impair acquisition of a conditioned taste aversion (CTA) in rats. To test whether this deficit has a memorial basis, 15 intact rats and 10 rats with PBN lesions (PBNX) received 7 intraoral taste stimulus infusions (30 sec, 0.5 ml) distributed over a 30.5-min period after either LiCl or NaCl injection. This task measures the rapid formation of a CTA and has minimum demands on memory. LiCl-injected intact rats progressively changed their oromotor response profiles from one of ingestion to one of aversion. NaCl-injected intact rats did not change their ingestive pattern of responding. In contrast, there was no difference between LiCl- and NaCl-injected PBNX rats. These same PBNX rats failed to avoid licking the taste stimulus when tested in a different paradigm. A simple impairment in a memorial process is not likely the basis for the CTA deficit. (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Absence of differential associative responses to novel and familiar taste stimuli in rats lacking gustatory neocortex.

24 Long-Evans hooded rats lacking gustatory neocortex and 24 normal rats were familiarized to either hydrochloric acid or quinine hydrochloride solutions during free-drinking trials. Ss were subsequently trained to avoid either the familiar or the novel taste stimulus, using a balanced design, by pairing the to-be-associated taste with ip injections of apomorphine hydrochloride. Balanced, nonpaired presentations of the other taste solution and water were also presented. Normal Ss learned to avoid the novel taste more efficiently than the familiar taste. Ss with gustatory neocortex lesions did not differentiate novel from familiar tastes. They learned aversions to both in a manner highly similar to the aversion learning of familiar tastes by the normal group. Therefore, results demonstrate that Ss lacking gustatory neocortex displayed an associative deficiency only when they were trained on novel stimuli. This suggests that gustatory neocortex lesions disrupt the conditionability of taste stimuli by reducing or eliminating responses to taste novelty. This interpretation is supported by the absence of a "neophobic" response in the lesioned rats to the first presentation of a taste stimulus. (26 ref) (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Genetic differences in nicotine-induced conditioned taste aversion

Genetic differences in nicotine-induced conditioned taste aversion were examined using inbred mice. Adult male C57BL/6J, DBA/2J, BALB/cJ and C3H/heJ mice were adapted to a 2-h per day water access regimen. Subsequently, mice received nicotine injections (0.5, 1.0 or 2.0 mg/kg) immediately after 1-h access to a NaCl flavored solution. DBA and C3H mice developed dose-dependent aversions to the nicotine-paired flavor. BALB mice showed only minor reductions in intake with no difference between the nicotine dose groups. C57BL mice did not show development of nicotine-induced conditioned taste aversion. These results demonstrate that nicotine's aversion motivational effect is strongly influenced by genotype. Further, genetic sensitivity (DBA mice) or insensitivity (C57BL mice) to nicotine-induced conditioned taste aversion was similar to reports of genetic sensitivity to ethanol's aversive effect measured in this design.     

Comparison of nutritive and nonnutritive stimuli in intestinal and oral conditioned taste aversion paradigms.

The intestinal taste aversion paradigm has previously demonstrated that animals could orally discriminate between carbohydrate and fat subsequent to pairing a gastrointestinal (GI) infusion of 1 nutrient with lithium chloride (LiCl), whereas they could not discriminate between 2 nonnutritive flavors (A. L. Tracy, R. J. Phillips, M. M. Chi, T. L. Powley, & T. L. Davidson, 2004). The present experiments assessed the relative salience of nutritive and nonnutritive stimuli when presented either intestinally or orally. Two compound stimuli, each comprising 1 nutrient and 1 nonnutritive flavor, were presented in training and were paired with LiCl or saline. Subsequent oral intake of the nutrients alone, the flavors alone, or the compounds was measured. Results showed that rats discriminated both nutrients and flavors independently after GI or oral training, whereas the compounds were discriminated only after oral training, indicating substantive differences in the processing of these stimuli. This suggests that nutrient activation of the GI tract may potentiate learning about nonnutritive flavors analogously to taste-potentiated odor conditioning. The ability to learn about the oral properties of stimuli in the GI tract suggests a new account of delayed taste aversion learning as well as learning about the positive nutritive consequences of food consumption. (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Forebrain structures specifically activated by conditioned taste aversion.

This study investigates which forebrain structures show Fos protein expression during conditioned taste aversion (CTA) acquisition and whether Fos expression depends on the aversion strength. A novel taste paired with an intraperitoneal injection of a low dose of the malaise-inducing agent lithium chloride (LiCl) induced a weak CTA, whereas associating this novel taste with a high dose of LiCl induced a strong CTA. Increasing the strength of the gastric malaise alone enhanced Fos expression in central, basal, and lateral amygdala nuclei and decreased Fos expression in the nucleus accumbens core. Taste-malaise association induced specific Fos activation in the insular cortex (with both the low and the high doses of LiCl) and the nucleus accumbens shell (with the high LiCl dose only). No significant variation of Fos expression was measured in the perirhinal cortex. Several forebrain areas may be sites of taste-malaise convergence during CTA acquisition depending on the strength of the aversion. (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Conditioned cyclosporine effects but not conditioned taste aversion in immunized rats.

In 2 experiments, the development of adjuvant arthritis (an experimental autoimmune disease) was inhibited by exposing rats to a flavored solution that had previously been paired with injections of cyclosporine (an immunodepressive drug) compared with rats with the same history but exposed to a flavored solution that had previously not been paired with drug injections. In contrast to earlier experiments on conditioned cyclophosphamide effects, rats did not avoid the taste that had previously been paired with drug administration. Thus, conditioned immunopharmacologic effects were not confounded with taste aversion. These observations are interpreted as reflecting an associative learning process that affected the development of an autoimmmune disease. (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Effects of atropine on conditioned taste aversion

Atropine sulfate, which has a deleterious effect on various learning tasks, was found to have a similar effect on the acquisition of conditioned taste aversion. Thus, intraperitoneal injection of atropine sulfate shortly before tasting was found to interfere with conditioning of the aversion, but injection of atropine after tasting did not. The interference effect was also obtained with intraventricular administration of atropine sulfate, but not with intraperitoneal injection of the peripherally-acting atropine methylnitrate. These results show that central rather than peripheral mechanisms are involved in this effect, and suggest that conditioned taste aversion, like other kinds of learning, involves cholinergic mediation.     

Effects of hypothermia on the acquisition of conditioned taste aversion in rats.

Analyzed the mechanism of conditioned taste aversion (CTA) by subjecting 131 male and hooded rats in 5 experiments to reduced body temperature during various phases of CTA acquisition. A 15-min access to .1% saccharin served as the CS, and an ip injection of LiCl (.15 M, 4% of body weight) given 30 min later served as the UCS. Hypothermia (cooling to 20-22°C colonic temperature) alone or combined with anesthesia (Nembutal 20 or 40 mg/kg) did not prevent CTA acquisition when applied during the CS-UCS interval. Hypothermia induced immediately after LiCl administration to anesthetized or unanesthetized Ss failed to disrupt CTA or to increase neophobic rejection of saccharin. On the other hand, hypothermic Ss were not able to form the short-term gustatory trace when the CS (2% saccharin, 1% of body weight) was injected ip, although this procedure yielded significant CTA in euthermic Ss. It is concluded that the most vulnerable link of CTA acquisition is the formation of the short-term gustatory trace. Persistence of the short-term trace, its association with poisoning, and consolidation of the permanent CTA engram are accomplished by mechanisms that are resistant to hypothermia and/or anesthesia. (39 ref) (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Uterine position and conditioned taste aversion.

Three experiments investigated the influence of uterine position on the performance of female offspring of female Sprague-Dawley and male Long-Evans rats in a conditioned taste aversion paradigm. 49 females that had males caudal to them in the same uterine horn (MF), 48 females with no caudal males (FF), and 24 males that had occupied a variety of different positions in the uterine horn were examined. Exps I and II confirmed a differential behavioral response by males and females during acquisition and extinction of the conditioned taste aversion. However, no differences were found between MF and FF Ss. In Exp III, in which testosterone was administered to females throughout testing, MF females showed an increased sensitivity to testosterone and a more prolonged rate of extinction than FF females. Exposure to testosterone during prenatal development heightened postnatal responsiveness to testosterone in female Ss. Results are discussed in terms of the organizational and activational effects of testosterone on behavior in a conditioned taste aversion situation. (20 ref) (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Acquisition and extended retention of a conditioned taste aversion in preweanling rats.

Four experiments employed a taste aversion conditioning procedure appropriate for both neonatal and adult rats to investigate the ontogeny of extended retention. In Exp I, 200 outbred albino rats trained at 1, 10, 20, or 60 days of age were tested for retention of the taste aversion 25 days later. At testing, only those Ss conditioned when 20 or 60 days old demonstrated significant taste aversions. Exps II and III, with 190 Ss, established that Ss 14–25 days old and older were able to retain significant taste aversions following a 25-day retention interval. 80 younger Ss did, however, acquire and retain the aversion for several days and showed a gradual retention loss over progressively longer retention intervals (Exp IV). Findings suggest that preweanling rats demonstrate initial consolidation, storage, and retrieval of conditioned taste aversions. It is only after this initial period that retention deficits become evident. (29 ref) (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Boosting cholinergic activity in gustatory cortex enhances the salience of a familiar conditioned stimulus in taste aversion learning.

The cholinergic system is important for learning, memory, and responses to novel stimuli. Exposure to novel, but not familiar, tastes increases extracellular acetylcholine (ACh) levels in insular cortex (IC). To further examine whether cholinergic activation is a critical signal of taste novelty, in these studies carbachol, a direct cholinergic agonist, was infused into IC before conditioned taste aversion (CTA) training with a familiar taste. By mimicking the cholinergic activation generated by novel taste exposure, it was hypothesized that a familiar taste would be treated as novel and therefore a salient target for aversion learning. As predicted, rats infused with the agonist were able to acquire CTAs to familiar saccharin. Effects of carbachol infusion on patterns of neuronal activation during conditioned stimulus–unconditioned stimulus pairing were assessed using Fos-like immunoreactivity (FLI). Familiar taste–illness pairing following carbachol, but not vehicle, induced significant elevations of FLI in amygdala, a region with reciprocal connections to IC that is also important for CTA learning. These results support the view that IC ACh activity provides a critical signal of taste novelty that facilitates CTA acquisition. (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Thalamocortical relations in taste aversion learning: I. Involvement of gustatory thalamocortical projections in taste aversion learning.

Examined the involvement of presumed gustatory thalamocortical projections in conditioned taste aversion (CTA) learning, using 108 male Long-Evans rats in 4 experiments. Neuroanatomical and neurobehavioral manipulations in the ventrolateral neostriatum were used. Findings demonstrate that projections from posterior ventromedial thalamic nuclei, parvicellular division (VPMpc), and thalamus to the anterior insular gustatory neocortex (AIGN) were essential for normal CTA learning. Because both VPMpc thalamus and the AIGN each have been implicated as functional substrates of CTA learning, the present results suggest that the gustatory thalamocortical relay per se is necessary for normal taste-illness learning. (40 ref) (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Forebrain contribution to the induction of a brainstem correlate of conditioned taste aversion. II. Insular (gustatory) cortex

We report a new form of congenital muscular dystrophy (CMD) in 4 patients from three unrelated families with probable autosomal-recessive inheritance. All patients had the clinical characteristics of merosin-positive congenital muscular dystrophy, but had marked mental retardation. The disease was slowly progressive and 1 patient died from dilated cardiomyopathy at the age of 13 years. In addition to dystrophic changes with necrosis and regeneration in muscle, the most striking finding was mitochondrial depletion in the center of the sarcoplasm. Mitochondria at the periphery of fibers were markedly enlarged ("megaconial" appearance) with complicated cristae, and contained a normal amount of mitochondrial DNA by in situ hybridization. Mitochondrial enlargement may represent functional compensation for mitochondrial depletion in the central sarcoplasm, where myofibrillar degeneration occurred.     

Hormonal influences on sexual dimorphism in rate of extinction of a conditioned taste aversion in rats

The hormonal influences on the slow extinction rate of a conditioned taste aversion shown by male rats and the fast extinction rate shown by female rats were investigated. When males were castrated, they extinguished as quickly as females. When castrated males were given testosterone propionate replacement, they had a slow extinction rate. Castration had no effect on the extinction rate of females. But when testosterone propionate was administered to castrated or intact females, they had a slow, malelike extinction rate. Thus, sexual dimorphism in the extinction rate of a conditioned taste aversion seems to be due to the activational effects of testosterone.     

Ethanol-induced conditioned taste aversion in 15 inbred mouse strains.

This study used a genetic correlational strategy to characterize the neurobiological basis of ethanol's (0, 2, or 4 g/kg) aversive effects as indexed by conditioned taste aversion. Substantial strain differences in taste aversion and hypothermia were observed, but the genetic correlation between these phenotypes was not significant. However, significant genetic correlations were observed between taste aversion and ethanol-related behaviors measured in previous studies, including home-cage ethanol preference (r = .68) and ethanol withdrawal severity (r = -.69). Strains showing stronger taste aversion tended to show lower ethanol preference and higher withdrawal severity. This pattern of findings is consistent with previous studies suggesting a commonality in neurobiological mechanisms underlying these phenotypes. These results do not support the hypothesis that ethanol-induced taste aversion is mediated by the drug's rewarding properties. (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Ibotenate lesions of the hippocampus enhance latent inhibition in conditioned taste aversion and increase resistance to extinction in conditioned taste preference.

In 2 experiments, the effects of axon-sparing lesions of the hippocampus on performance in aversive and appetitive taste conditioning tasks were investigated. In Exp 1, hippocampally lesioned rats showed no impairment of conditioned taste aversion learning relative to controls, but they did display an increased sensitivity to latent inhibition (LI). In Exp 2, the same hippocampectomized rats acquired a conditioned taste preference but failed to show any evidence of extinction. The influence of the neurotoxic lesion on LI is in the opposite direction to the effect typically found following hippocampal damage induced by traditional methods. Accordingly, the data present challenges for most current theories of hippocampal function. (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Decreased testosterone levels and accelerated extinction of a conditioned taste aversion in fluid-deprived male rats.

The hypothesis that fluid deprivation accelerates extinction of a conditioned taste aversion in male Sprague-Dawley-derived rats by reducing serum testosterone levels was tested. Serum testosterone levels were found to be lower in fluid-deprived males than in nondeprived males (Exps 1 and 2). Exogenous testosterone treatment that results in high physiological levels of serum testosterone slowed the extinction of fluid-deprived gonadectomized males to rates comparable with those of nondeprived sham males (Exp 3). It was noted, however, that testosterone treatment was less effective in slowing extinction in fluid-deprived gonadectomized males than in nondeprived gonadectomized males even though the serum testosterone levels were the same (Exps 3 and 4). These results provide strong support for the original hypothesis, but they suggest that fluid deprivation also reduces sensitivity to testosterone. (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Brainstem lesions and gustatory function: II. The role of the nucleus of the solitary tract in Na+ appetite, conditioned taste aversion, and conditioned odor aversion in rats.

Rats with lesions of the nucleus of the solitary tract (NST) that demonstrated flat concentration-response functions for NaCl and sucrose (T. Shimura et al, see record 84-21706) expressed a significant (albeit reduced) salt appetite following sodium depletion, and a normal conditioned taste aversion (CTA) for alanine when paired with lithium chloride-induced toxicosis. Rats with lesions of the NST also could acquire a conditioned odor aversion, but the CTA to alanine was not mediated by odor cues because other rats with NST lesions also demonstrated normal CTA learning even when made anosmic with zinc sulfate. Together, the data suggest that the rostral NST is essential for responding appropriately to increasing concentrations of a tastant, but not for the chemical identification necessary for sodium appetite and CTA learning. (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Prevention of radiation induced taste aversion in rats

Diltiazem, a calcium channel blocker, and a cardiovascular therapeutic agent offers significant protection to mice against lethal dose of ionizing radiation. Considering the potential efficacy of diltiazem as a radioprotector for human use, it was deemed necessary to investigate its influence on radiation-induced behavioural changes like nausea, vomiting, learning, memory and performance. In the present studies, conditioned taste aversion (CTA) test based on consumption of saccharin solution, was used as a marker of behavioural changes. Significant CTA (97 +/- 2%) was observed in rats irradiated with Co-60 gamma rays (absorbed dose 1 Gy). Administration of diltiazem at doses greater than 10 mg/kg, body wt, evoked CTA in a dose-dependent manner and that was found to be further aggravated on irradiation. At a lower dose of 5 mg/kg, body wt, diltiazem did not evoke CTA and protected against radiation induced aversion significantly (62 +/- 3%). The results suggest that diltiazem at concentrations lower than 10 mg/kg, body wt, in rats may be useful in preventing radiation induced behavioural changes. This observation could be of particular significance in clinical radiotherapy where radiation induced nausea and vomiting are of great concern.     

Adrenalectomy reduces peripheral neural responses to gustatory stimuli in the rat.

The adrenalectomized rat, because of excessive body sodium loss, has been an important animal model for studying the physiological mechanisms underlying salt ingestion. To investigate the mediation by peripheral taste responsivity of changes in salt intake, multiunit responses of the chorda tympani nerve to various concentrations of NaCl, KCl, and LiCl, hydrochloric acid, and quinine hydrochloride were recorded from 18 adrenalectomized or intact male Sprague-Dawley rats. To control for a generalized decrease in sensory sensitivity, recordings from this auriculotemporal nerve to tactile stimulation of the pinna were also performed. There were no group differences in amplitude of the integrated neural responses to tactile stimulation. The largest decrease in gustatory responsivity occurred for suprathreshold concentrations of NaCl and LiCl. Data are discussed with reference to possible mechanisms underlying this neural alteration and the role that reductions in salt taste responsivity play in mediating increases in salt intake. (22 ref) (PsycINFO Database Record (c) 2010 APA, all rights reserved)