Lesions of the mediodorsal nucleus of the thalamus and classical eyeblink conditioning under less-than-optimal stimulus conditions: Role of partial reinforcement and interstimulus interval.

Rabbits received lesions of the mediodorsal nucleus of the thalamus (MD) or sham lesions and were subjected to classical eyeblink (EB) and heart rate (HR) conditioning. Separate groups of sham and lesioned animals received either 50% or 25% reinforcement with a periorbital shock unconditioned stimulus. Other groups received an interstimulus interval (ISI) of either 1.0 or 1.5 s. Animals with MD lesions acquired the EB conditioned response (CR) more slowly than sham-lesioned animals with either the 1.5-s ISI or with the 25% reinforcement schedule. The lesions had no significant effect on the HR CR, however. Results suggest that information processed by MD is relayed to the prefrontal cortex and is required for somatomotor response selection under nonoptimal learning conditions. (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Potentiation or diminution of discrete motor unconditioned responses (rabbit eyeblink) to an aversive Pavlovian unconditioned stimulus by two associative processes: Conditioned fear and a conditioned diminution of unconditioned stimulus processing.

In 2 experiments using the rabbit conditioned eyeblink preparation, the conditions under which a Pavlovian conditioned stimulus/stimuli (CS) potentiates or diminishes the unconditioned response (UCR) were examined. Results indicate that, after discrimination training (CS+ vs CS–), the CS+ diminished UCR amplitude at the training interstimulus interval (ISI). When CS+ trials were segregated into trials on which a conditioned response (CR) did or did not occur, the CS+ diminished the UCR when it elicited a CR, but not when a CR failed to occur. When the CS-unconditioned stimulus (UCS) interval was lengthened to 10 sec, the CS+ reliably potentiated the eyeblink UCR on CR trials but did not potentiate responding on trials on which a CR was absent. Results are discussed in terms of the modulatory effects and temporal properties of conditioned fear and an associatively produced decrement in UCS processing. (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Medial Prefrontal Lesions and Pavlovian Eyeblink and Heart Rate Conditioning: Effects of Partial Reinforcement on Delay and Trace Conditioning in Rabbits (Oryctolagus cuniculus).

Effects of continuous (100%) versus partial (25%) reinforcement were studied on Pavlovian delay and trace eyeblink conditioning in rabbits (Oryctolagus cuniculus) with either lesions to the medial prefrontal cortex (mPFC) or sham lesions. Concomitant heart rate changes evoked by the conditioned stimulus were also assessed. Partial reinforcement retarded eyeblink conditioning in both the trace and delay paradigm, but this impairment was greater during trace conditioning and in rabbits with mPFC lesions. Accompanying conditioned stimulus-evoked heart rate slowing was attenuated under all conditions by the mPFC lesions, although this result was not always statistically significant. (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Discriminated lateralized eyeblink conditioning in the rabbit: An experimental context for separating specific and general associative influences.

Four experiments demonstrated discriminated lateralized eyeblink conditioning in 38 male rabbits and showed how the phenomenon may be used to differentiate between the reflexive and emotive consequences of Pavlovian conditioning. Exps 1, 2, and 3 characterized how 2 conditioned stimuli (CSs), contemporaneously trained with left vs right paraorbital unconditioned stimuli (UCSs), can produce different CRs, each involving predominant closure of the eye ipsilateral to its UCS. Exp 4 showed how the associative tendencies controlled by additional stimuli could be evaluated by presentations in compound with such discriminanda: A 30-sec stimulus, presumed to acquire a conditioned emotional response but no eyeblink CR, equally potentiated the eyelid CRs elicited by both CSs. A 1,050-msec CS that evoked an eyeblink CR in isolation also increased the responding to both CSs but biased it toward its own lateralized CR. (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Reflex facilitation during eyeblink conditioning and subsequent interpositus nucleus inactivation in the rabbit (Orycotolagus cuniculus).

In eyeblink conditioning in the rabbit (Oryctolagus cuniculus), not only is a conditioned response (CR) acquired, but also the original reflex is modified as a function of training. In Experiment 1, by comparing unconditioned responses in unpaired and paired groups, 3 types of reflex facilitation were distinguished. One type was linked to exposure to the unconditioned stimuli (USs) and/or experimental setting. The 2nd type was related to the formation of the memory trace for conditioned eyeblink. The 3rd type was linked to the conditioned stimulus immediately preceding the US in the paired group. In Experiment 2, reversible inactivation of the interpositus nucleus (IPN) abolished the CR and reduced the CR-related reflex facilitation, indicating that the latter depends on the plasticity of the IPN. (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Conditioning using a cerebral cortical conditioned stimulus is dependent on the cerebellum and brain stem circuitry.

Electrical stimulation of the auditory cortex (AC) was used as a conditioned stimulus/stimuli (CS) in the rabbit conditioned eyeblink preparation to trace the functional anatomical connections between the AC and the circuitry underlying this conditioned response (CR). Conditioning was shown to be dependent on the cerebellar interpositus nucleus and the pontine nuclei (PN), structures that are essential for conditioning using a peripheral CS. Results suggest that the cerebellum and associated brain stem circuitry are a necessary part of the memory trace circuit for the conditioned eyeblink response, even when the cerebral cortex is artificially engaged as a CS by electrical stimulation. Results also suggest that the PN are a site of convergence between the CS circuit subserving classical conditioning for peripheral stimuli and the AC, and may therefore be a site where the AC can modulate more elaborate forms of conditioning. (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Long-term retention of the classically conditioned eyeblink response in rats.

Retention of the classically conditioned eyeblink response in rats was tested with a conditioned stimulus (CS)-alone extinction test and 2 sessions of reacquisition training. Retention of the eyeblink conditioned response (CR) during both tests was highest 24 hrs and 1 mo after initial acquisition. Three months after initial acquisition, responding during the CS-alone test was at baseline, but there was significant savings during reacquisition. By 6 mo after initial acquisition, the memory for the eyeblink CR was not expressed in either test. The group differences in retention, despite initial acquisition of the eyeblink CR to equal levels, suggest that rat eyeblink conditioning may provide a useful behavioral model for studying the neural processes underlying memory retention and loss. (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Lesions of the cerebellar vermis and cerebellar hemispheres: Effects on heart rate conditioning in rats.

The effects of lesions of the cerebellum on the acquisition of heart rate (HR) conditioned responses (CRs) were examined in rats. Large lesions of the cerebellar vermis severely attenuated the acquisition of differentially conditioned bradycardic responses in restrained rats without affecting unconditioned HR responses to the tone conditioned stimuli (CSs) or the shock unconditioned stimulus/stimuli (UCS). In Exp 2, Ss were trained unrestrained, and under these conditions the CR was tachycardia in control Ss. Lesions of the vermis again severely attenuated acquisition of this CR without affecting unconditioned response (UCR) to the CSs or UCS. Bilateral lesions of the cerebellar hemispheres did not affect HR conditioning in either test procedure. The vermis of the cerebellum is an essential component of an HR conditioning circuit in the rat. The cerebellar hemispheres, which are involved in some discrete somatomotor CRs, have no essential functional contribution to HR conditioning. Results are discussed in relation to contributions from a forebrain system involved in HR conditioning and in relation to lateral cerebellar contributions to discrete somatomotor CRs. (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Modulation of the acquisition of the rabbit eyeblink conditioned response by conditioned contextual stimuli.

Three experiments were conducted to ask if conditioned emotional responses (CERs) controlled by contextual cues modulate the acquisition of eyelid conditioned responses (CRs) to discrete conditioned stimuli (CSs). Experiment 1 showed that 30-s auditory stimuli that were paired with aversive shocks to one paraorbital region or the other controlled discriminated CERs, as measured by potentiation of a startle response. In Experiments 2 and 3, similarly trained 30-s stimuli served as contexts in which 1,050-ms CSs were paired with a paraorbital unconditioned stimulus (US). Reinforced contexts both impaired (Experiments 2A and 2B) and facilitated (Experiment 3B) acquisition of the eyeblink CR, depending on the locus of the USs involved. The data are consistent with the interpretation that CERs controlled by contextual cues facilitate CR acquisition, but do so in the face of blocking effects of CR tendencies also conditioned to the contextual cues. (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Bilateral nature of the conditioned eyeblink response in the rabbit: Behavioral characteristics and potential mechanisms.

In Pavlovian eyeblink conditioning, the conditioned response (CR) is highly lateralized to the eye to which the unconditioned stimulus (US) has been directed. However, the initial conditioning of one eye can facilitate subsequent conditioning of the other eye, a phenomenon known as the intereye transfer (IET) effect. Because a conditioned emotional response (CER), as well as the eyeblink CR, is acquired during eyeblink conditioning and influences the development of the CR, the CER acquired in initial training can plausibly account for the IET effect. To evaluate this possibility, the present study utilized previously determined eyeblink conditioning procedures that effectively decouple the degree of CER and CR development to investigate the IET effect. In each of 3 experiments rabbits were initially trained with comparison procedures that differentially favored the development of the eyeblink CR or the CER, prior to a shift of the US to the alternate eye. The observed differences in the IET suggest that the effect depends largely on the specific development of eyeblink CRs rather than the CER. The neurobiological implications of this apparent bilaterality of the eyeblink CR are discussed. (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

The ontogeny of interstimulus interval (ISI) discrimination of the conditioned eyeblink response in rats.

Discrimination of the eyeblink conditioned response (CR) between conditioned stimuli (CSs) of different durations and modalities was examined across development in rats. Interstimulus interval (ISI) discrimination was evident at Postnatal Days 23-34 in Experiment 1, and earlier CR peak latencies and enhanced CR amplitudes were seen to the long CS in the ISI discrimination group relative to a control group receiving the short CS without reinforcement. Experiment 2 showed that early CR peak latencies and enhanced CR amplitudes to the long CS in the ISI discrimination group were due to associative pairing of the short CS and unconditioned stimulus. Experiment 3 demonstrated ISI discrimination in adults that was improved relative to younger subjects, but with no enhancement of CR amplitude to the long CS in the ISI discrimination group. Cerebellar cortical maturation may influence the ontogeny of CR timing. (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Medial dorsal thalamic lesions impair blocking and latent inhibition of the conditioned eyeblink response in rats.

The effects of lesions of the medial dorsal thalamic nucleus (MD) on blocking and latent inhibition (LI) of the rat eyeblink response were examined in the present study. Previous work has demonstrated that the cingulate cortex and related thalamic areas are involved in processing conditioning stimuli throughout training. The experiments in the present study tested the hypothesis that disruption of cingulothalamic stimulus processing produced by lesions of the MD would impair 2 types of associative learning that involve decremental changes in attention. In Experiment 1, MD lesions severely impaired blocking. In Experiment 2, NM lesions severely impaired LT. The results indicate that lesions of the NM impair incremental, decremental, or both types of changes in stimulus processing during learning. (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Interpositus lesion abolition of the eyeblink conditioned response is not due to effects on performance.

Classical conditioning of the rabbit eyeblink response was used to study the effects of cerebellar lesions on performance in animals trained with low-intensity unconditioned stimuli (UCS). Animals were trained with 1 or 2 low-intensity corneal-airpuff UCSs paired with a tone-conditioned stimulus. This study confirms earlier findings demonstrating the differential effects of lesions of deep cerebellar nuclei on the conditioned and unconditioned responses (CRs and UCRs). Lesions of the anterior interpositus nucleus of the cerebellum in animals that were successfully conditioned abolished CRs without affecting UCR performance. (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Hippocampal activity during classical discrimination—Reversal eyeblink conditioning in rabbits.

Multiple-unit neuronal recordings were taken from the hippocampi of 10 male, New Zealand white rabbits during classical discrimination and reversal eyeblink conditioning using 2 tones as the conditioned stimuli (CS+ and CS–) and an air-puff unconditioned stimulus. During discrimination training, characteristic learning-related activity was seen in the hippocampus on trials when a conditioned response (CR) was executed. During early phases of reversal training, however, when high numbers of CRs were evident to both the new CS+ (the former CS–) and the new CS– (the former CS+), no learning-related activity was observed. Characteristic CR-related hippocampal activity to the CS+ was observed only after the rabbits began to learn the reversal response. These results suggest that the hippocampus may encode different features of eyeblink conditioning during discrimination and reversal learning. (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Impaired classical eyeblink conditioning in cerebellar-lesioned and Purkinje cell degeneration (pcd) mutant mice

Converging lines of evidence from rabbits, rats, and humans argue for the crucial involvement of the cerebellum in classical conditioning of the eyeblink/nictitating membrane response in mammals. For example, selective lesions (permanent or reversible) of the cerebellum block both acquisition and retention of eyeblink conditioning. Correspondingly, electrophysiological and brain-imaging studies indicate learning-related plasticity in the cerebellum. The involvement of the cerebellum in eyeblink conditioning is also supported by stimulation studies showing that direct stimulation of the two major afferents to the cerebellum (the mossy fibers emanating from the pontine nucleus and climbing fibers originating from the inferior olive) can substitute for the peripheral conditioned stimulus (CS) and unconditioned stimulus (US), respectively, to yield normal behavioral learning. In the present study, we examined the relative contribution of the cerebellar cortex versus deep nuclei (specifically the interpositus nucleus) in eyeblink learning by using mutant mice deficient of Purkinje cells, the exclusive output neurons of the cerebellar cortex. We report that Purkinje cell degeneration (pcd) mice exhibit a profound impairment in the acquisition of delay eyeblink conditioning in comparison with their wild-type littermates. Nevertheless, the pcd animals did acquire a subnormal level of conditioned eyeblink responses. In contrast, wild-type mice with lesions of the interpositus nucleus were completely unable to learn the conditioned eyeblink response. These results suggest that both cerebellar cortex and deep nuclei are important for normal eyeblink conditioning.     

Posttraining lesions of the medial prefrontal cortex impair performance of Pavlovian eyeblink conditioning but have no effect on concomitant heart rate changes in rabbits (Oryctolagus cuniculus).

The medial prefrontal cortex (mPFC) plays a critical role in conditioned autonomic adjustments but is not involved in classically conditioned somatomotor responses unless the training conditions include reversal or trace conditioning. The studies showing these effects have all used pretraining lesions. The present study assessed the effects of posttraining lesions on eyeblink (EB) and heart rate (HR) conditioned responses (CRs) in both delay and trace conditioning paradigms in the rabbit (Oryctolagus cuniculus). Posttraining lesions lowered the percentage of EB CRs during retesting compared with pretesting levels for both delay and trace conditioning. Control lesions and pretraining lesions produced no significant effects during retesting. Posttraining lesions had no effect on the HR CR. These findings suggest that a critical mechanism in the mPFC is involved in retrieval of information during EB conditioning but that the mPFC integration of autonomic and somatomotor processes is not critical to this retrieval process. (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Medial prefrontal cortex and Pavlovian conditioning: Trace versus delay conditioning.

Pavlovian eyeblink (EB) conditioning was studied in both trace and delay paradigms in rabbits (Oryctolagus cuniculus) with either medial prefrontal cortex (mPFC) lesions or sham lesions. mPFC lesions of prelimbic cortex (Brodmann's Area 32) retarded EB conditioning in the trace but not the delay paradigm. However, this effect was significant only when the conditioned stimulus (CS) was 500 rather than 100 ms in duration. Lesions of the anterior cingulate cortex (Area 24) did not affect EB conditioning in a trace paradigm. Accompanying CS-evoked heart rate slowing was attenuated under all conditions by the mPFC lesions, although this result was not always statistically significant. (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Amygdala lesions block conditioned enhancement of the early component of the rat eyeblink reflex.

A tone-conditioned stimulus (CS) previously paired with a grid shock unconditioned stimulus (US) can greatly enhance the early electromyographic (EMG) component (RI) of the rat eyeblink reflex. The hypothesis that the central nucleus of the amygdala (ACe) is an essential part of the circuitry mediating conditioned RI enhancement was tested. After bilateral ACe lesions (L) or a sham operation (S), rats received paired presentations of the CS and US (P) or explicitly unpaired CS and US presentations (U), resulting in 4 groups: P/S, P/L, U/S, and U/L. ACe lesions completely prevented conditioned RI enhancement, which was only exhibited in Group P/S. In the latter group, the "preextinction" conditioned enhancement effect was roughly a 2-fold increase in the RI magnitude. Circuit-level mechanisms are discussed, and some advantages of the eyeblink EMG response in this general conditioning paradigm are considered. (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Role of the central nucleus of the amygdala in olfactory heart rate conditioning.

The role of the central nucleus of the amygdala on olfactory heart rate conditioning in the infant rat was investigated. The conditioned stimulus (CS) consisted of a 10-s presentation of grape juice odor that was immediately followed by a 0.5-s, 0.35-mA subcutaneous shock. A sensitization control group was also run. Three days prior to testing, Ss received either bilateral electrolytic lesions of the central nucleus of the amygdala, sham lesions, or were left unperturbed. Results show that damage to the central nucleus of the amygdala severely impaired olfactory heart rate conditioning but that it had no deleterious effect on the heart rate orienting response to that stimulus or on the heart rate unconditioned response (UCR) to shock. Results are analogous to those in previous research on auditory heart rate conditioning and suggest that the central nucleus of the amygdala may constitute a necessary stage in the transduction of the CS into a cardiac conditioned response (CR) regardless of sensory modality. (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Conditioned-reflex facilitation in young and older adults

Young (18-30 years) and elderly (63-88 years) human subjects received 70 trials of single-cue classical eyeblink conditioning (paired group), or 70 explicitly unpaired presentations of the tone conditioned stimulus (CS) and airpuff unconditioned stimulus (unpaired group). Before and after conditioning, reflex-eliciting white noise and corneal airpuff stimuli were presented alone or paired with the CS to investigate the effects of conditioning on eyeblink reflex amplitude. The results showed increased conditioned responses in the paired group compared to the unpaired group for the young but not the elderly subjects. There was, however, evidence of conditioned facilitation of noise-elicited reflexes in both young and elderly subjects. These data indicate that conditioned facilitation of the startle reflex may be a sensitive indicator of classical conditioning processes in human subjects.