Neural Substrates of Eyeblink Conditioning: Acquisition and Retention

Christian, Kimberly M.; Thompson, Richard F.

doi:10.1101/lm.59603

Cited by 560 publications

(502 citation statements)

References 346 publications

(395 reference statements)

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“…However, the two-way repeated measures ANOVA confirmed that the CR% ( Figure 5A, right panel) and the CR peak amplitude ( Figure 5B, right panel) for the animals that received the muscimol infusion were significantly lower than for the animals that received the saline infusion [F (1,16) Effects of muscimol infusion into the left cerebellar interpositus nucleus on long TEC expression Infusion of muscimol into the left cerebellar interpositus nucleus significantly decreased the CR% ( Figure 6A, right panel) and the CR peak amplitude ( Figure 6B, right panel) for the group that received long-trace conditioning. A twoway repeated measures ANOVA performed on CR% ( Figure 6A, left panel) and CR peak amplitude ( Figure 6B, left panel) revealed that there was no significant effect of trial block [F (1,14) =0.007, P=0.933 and F (1,14) =0.089, P=0.770, respectively] during the pre-infusion block (trial blocks 1-3). In contrast, the two-way repeated measures ANOVA confirmed that the CR% ( Figure 6A, right panel) and the CR peak amplitude ( Figure 6B, right panel) for the animals that received the muscimol infusion were significantly lower than for the animals that received the saline infusion [F (1,14) =25.801, P<0.001 and …”

Section: Effects Of Muscimol Infusion Into the Left Cerebellar Interpmentioning

confidence: 94%

“…A twoway repeated measures ANOVA performed on CR% ( Figure 5A, left panel) and CR peak amplitude ( Figure 5B, left panel) revealed that there was no significant effect of trial block [F (1,16) =0.250, P=0.624 and F (1,16) =0.516, P=0.483, respectively] during the pre-infusion block (trial blocks 1-3). However, the two-way repeated measures ANOVA confirmed that the CR% ( Figure 5A, right panel) and the CR peak amplitude ( Figure 5B, right panel) for the animals that received the muscimol infusion were significantly lower than for the animals that received the saline infusion [F (1,16) Effects of muscimol infusion into the left cerebellar interpositus nucleus on long TEC expression Infusion of muscimol into the left cerebellar interpositus nucleus significantly decreased the CR% ( Figure 6A, right panel) and the CR peak amplitude ( Figure 6B, right panel) for the group that received long-trace conditioning. A twoway repeated measures ANOVA performed on CR% ( Figure 6A, left panel) and CR peak amplitude ( Figure 6B, left panel) revealed that there was no significant effect of trial block [F (1,14) =0.007, P=0.933 and F (1,14) =0.089, P=0.770, respectively] during the pre-infusion block (trial blocks 1-3).…”

Section: Effects Of Muscimol Infusion Into the Left Cerebellar Interpmentioning

confidence: 99%

“…A twoway repeated measures ANOVA performed on CR% (Figure 4A, left panel) and CR peak amplitude ( Figure 4B, left panel) revealed there was no significant effect of trial block [F (1,14) =0.299, P=0.593 and F (1,14) =0.028, P=0.870, respectively] during the pre-infusion block (trial blocks 1-3). However, the two-way repeated measures ANOVA confirmed that the CR% ( Figure 4A, right panel) and the CR peak amplitude ( Figure 4B, right panel) for the animals that received the muscimol infusion were significantly lower than those observed for the animals that received the saline infusion [F (1,14) =25.599, P<0.001 and F (1,14) =36.147, P<0.001, respectively] during the post-infusion block (trial blocks 4-8).…”

Section: Effects Of Muscimol Infusion Into the Left Cerebellar Interpmentioning

confidence: 99%

“…Classical eyeblink conditioning is one of the most widely used model systems for studying the behavioral and neurobiological mechanisms of associative learning and memory [1][2][3] . All variant of eyeblink conditioning involve paired presentations of a behaviorally neutral conditioned stimulus (CS; eg, a tone or light) and an unconditioned stimulus (US; eg, a corneal airpuff or periorbital shock).…”

Section: Introductionmentioning

confidence: 99%

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Classical eyeblink conditioning using electrical stimulation of caudal mPFC as conditioned stimulus is dependent on cerebellar interpositus nucleus in guinea pigs

Yao

Fan

et al. 2012

Acta Pharmacol Sin

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Aim: To determine whether electrical stimulation of caudal medial prefrontal cortex (mPFC) as conditioned stimulus (CS) paired with airpuff unconditioned stimulus (US) was sufficient for establishing eyeblink conditioning in guinea pigs, and whether it was dependent on cerebellar interpositus nucleus. Methods: Thirty adult guinea pigs were divided into 3 conditioned groups, and trained on the delay eyeblink conditioning, short-trace eyeblink conditioning, and long-trace eyeblink conditioning paradigms, respectively, in which electrical stimulation of the right caudal mPFC was used as CS and paired with corneal airpuff US. A pseudo conditioned group of another 10 adult guinea pigs was given unpaired caudal mPFC electrical stimulation and the US. Muscimol (1 µg in 1 µL saline) and saline (1 µL) were infused into the cerebellar interpositus nucleus of the animals through the infusion cannula on d 11 and 12, respectively. Results: The 3 eyeblink conditioning paradigms have been successfully established in guinea pigs. The animals acquired the delay and short-trace conditioned responses more rapidly than long-trace conditioned responses. Muscimol infusion into the cerebellar interpositus nucleus markedly impaired the expression of the 3 eyeblink conditioned responses. Conclusion: Electrical stimulation of caudal mPFC is effective CS for establishing eyeblink conditioning in guinea pigs, and it is dependent on the cerebellar interpositus nucleus.

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Section: Effects Of Muscimol Infusion Into the Left Cerebellar Interpmentioning

confidence: 94%

Section: Effects Of Muscimol Infusion Into the Left Cerebellar Interpmentioning

confidence: 99%

Section: Effects Of Muscimol Infusion Into the Left Cerebellar Interpmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Classical eyeblink conditioning using electrical stimulation of caudal mPFC as conditioned stimulus is dependent on cerebellar interpositus nucleus in guinea pigs

Yao

Fan

et al. 2012

Acta Pharmacol Sin

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show abstract

“…Classical conditioning of the eyeblink response serves as an excellent model in which to investigate the mechanisms of associative learning and memory in mammals [2][3][4][5][6][7][8][9] . In this paradigm, a conditioned stimulus (CS; e.g., a tone or light) is followed by an unconditioned stimulus (US; e.g., a corneal air-puff or periorbital shock).…”

Section: Introductionmentioning

confidence: 99%

Awareness is essential for differential delay eyeblink conditioning with soft-tone but not loud-tone conditioned stimuli

Huang

et al. 2014

Neurosci. Bull.

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The role of awareness in differential delay eyeblink conditioning (DEC) remains controversial. Here, we investigated the involvement of awareness in differential DEC with a soft or a loud tone as the conditioned stimulus (CS). In the experiment, 36 participants were trained in differential DEC with a soft tone (60 dB) or a loud tone (85 dB) as the CS, paired with a corneal air-puff as the unconditioned stimulus (US). After conditioning, awareness of the relationship between the CS and the US was assessed with a 17-item true/false questionnaire. Interestingly, during differential DEC with a soft-tone CS, a higher proportion of differential conditioned responses (CRs) was evident in participants who were aware than those who were unaware. In contrast, when a loud tone was used as the CS, the proportion of differential CRs of the aware participants did not differ signifi cantly from those who were unaware over any of the blocks of 20 trials. In unaware participants, the percentage of differential CRs with a loud-tone CS was significantly higher than that with a soft-tone CS; however in participants classified as aware, the percentage of differential CRs with a loud-tone CS did not differ significantly from that with a soft-tone CS. The present findings suggest that awareness is critical for differential DEC when the delay task is rendered more diffi cult.

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Neurotoxicology and Behavior

Boyes¹

2012

Patty's Toxicology

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Neurotoxicity is important to consider as a component of occupational and environmental safety and health programs. The failure to do so has contributed to a number of cases in which workers, consumers of manufactured products, and people exposed in the environment were irreparably harmed by exposure to compounds that proved toxic to the nervous system. The field of neurotoxicology originated in response to several episodes of mass poisoning and developed through advances in clinical practice, scientific research, and regulatory actions. This chapter reviews broadly the development of the field of neurotoxicity and discusses some of the predominant current issues. The chapter includes an introduction to the structure and function of the nervous system, the response to injury, the evaluation of sensory, cognitive, and motor functions, and effects on emotionality, mood, and social conduct. Recently, there has been a growing emphasis on potential toxic effects on neurodevelopment and contributions to neurodegenerative diseases. Also, there is a large and growing effort to develop more rapid and cost‐efficient screening tests for potential neurotoxicity. A brief overview of some of the major classes of neurotoxic substances is provided including metals, solvents, pesticides, and persistent organic compounds. Finally, the need for programs to prevent neurotoxic illness is discussed.

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Neural Substrates of Eyeblink Conditioning: Acquisition and Retention

Cited by 560 publications

References 346 publications

Classical eyeblink conditioning using electrical stimulation of caudal mPFC as conditioned stimulus is dependent on cerebellar interpositus nucleus in guinea pigs

Classical eyeblink conditioning using electrical stimulation of caudal mPFC as conditioned stimulus is dependent on cerebellar interpositus nucleus in guinea pigs

Awareness is essential for differential delay eyeblink conditioning with soft-tone but not loud-tone conditioned stimuli

Neurotoxicology and Behavior

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