Ethanol-exposed neonatal rats are impaired as adults in classical eyeblink conditioning at multiple unconditioned stimulus intensities

Lindquist, Derick H.; Sokoloff, Greta; Steinmetz, Joseph E.

doi:10.1016/j.brainres.2007.03.002

Cited by 12 publications

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“…The present data support and extend previous findings of impaired EBC in rats following heavy binge-like alcohol exposure over PD4-9 (Brown et al, 2007, 2008; Green et al, 2000; 2002a, b; Lindquist et al, 2007; Stanton and Goodlett, 1998; Tran et al, 2005, 2007). Consistent with a previous report from our laboratory (Brown et al, 2008), deficits are present in ISI discrimination EBC following PD4-9 exposure to an alcohol dose as low as 3 g/kg/day, suggesting that this task may display enhanced sensitivity to the effects of neonatal alcohol exposure relative to single-cue EBC paradigms (Goodlett et al, 2007; Stanton et al, 2000).…”

Section: Discussionsupporting

confidence: 92%

“…Binge-like alcohol exposure at high doses (5 g/kg/day or more) over PD4-9 impairs acquisition of EBC in post-weanling, juvenile, and adult rats (Brown et al, 2007, 2008; Green et al, 2000, 2002a, b; Lindquist et al, 2007; Stanton and Goodlett, 1998; Tran et al, 2005, 2007). These impairments appear to reflect deficits in learning rather than performance (Green et al, 2000; Stanton and Goodlett, 1998; Tran et al, 2007) and are correlated with cerebellar neuronal loss (Green et al, 2002b; Tran et al, 2005) and impaired cerebellar electrophysiological activity (Green et al, 2002a).…”

Section: Introductionmentioning

confidence: 99%

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Neonatal binge alcohol exposure produces dose dependent deficits in interstimulus interval discrimination eyeblink conditioning in juvenile rats

et al. 2009

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Alcohol consumption in neonatal rats produces cerebellar damage and is widely used to model 3 rdtrimester human fetal alcohol exposure. Neonatal "binge-like" exposure to high doses of alcohol (5 g/kg/day or more) impairs acquisition of eyeblink classical conditioning (EBC), a cerebellardependent Pavlovian motor learning task. We have recently found impairments in interstimulus interval (ISI) discrimination -a complex task variant of EBC -in adult rats following postnatal day (PD) 4-9 alcohol exposure at doses of 3, 4, and 5 g/kg/day. Because robust developmental differences in conditioned response (CR) generation and CR latency measures are present between untreated juveniles and adults in this task, we sought to extend alcohol findings to juvenile rats (PD30). Five neonatal treatment groups were used: (1) undisturbed controls, (2) sham intubation controls, (3) 3 g/ kg/day of alcohol (blood alcohol concentration {BAC} = 139.9 mg/dl), (4) 4 g/kg/day of alcohol (BAC = 237.3 mg/dl), or (5) 5 g/kg/day of alcohol (BAC = 301.8 mg/dl). Intubations occurred over PD4-9. ISI discrimination training in juveniles (PD30-33) revealed dose-dependent CR deficits in all three alcohol-exposed groups relative to controls. Contrary to expected outcomes, CR latency measures were not significantly affected as a function of neonatal treatment. Comparison of these findings with our recent study in adults suggests that alcohol-induced impairments in ISI discrimination EBC may be greater in adults relative to juveniles. The present findings provide further evidence that ISI discrimination may provide greater sensitivity to functional deficits resulting from moderate levels of neonatal alcohol exposure relative to single-cue EBC paradigms. KeywordsFetal alcohol syndrome; eyeblink conditioning; neonatal alcohol; juvenile rat 1 1. Introduction Prenatal alcohol exposure in humans is among the leading preventable causes of mental retardation in the Western world (Abel and Sokol, 1986). The term fetal alcohol spectrum disorders (FASD) has been applied to characterize the range of deficits present in individuals Corresponding author: Kevin L. Brown, Department of Psychology, Temple University, Philadelphia, PA 19122, brownkev@temple.edu. Publisher's Disclaimer: This is a PDF file of an unedited manuscript that has been accepted for publication. As a service to our customers we are providing this early version of the manuscript. The manuscript will undergo copyediting, typesetting, and review of the resulting proof before it is published in its final citable form. Please note that during the production process errors may be discovered which could affect the content, and all legal disclaimers that apply to the journal pertain. 1 Abbreviations: ANOVA, analysis of variance; BAC, blood alcohol concentration; CR, conditioned response; CS, conditioned stimulus; EBC, eyeblink classical conditioning; EMG, electromyogram; FAS, fetal alcohol syndrome; FASD, fetal alcohol spectrum disorders; Group 3g/4g/5g, dosed with 3/4/5 g/kg/day of alcohol; Gro...

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Section: Discussionsupporting

confidence: 92%

Section: Introductionmentioning

confidence: 99%

Neonatal binge alcohol exposure produces dose dependent deficits in interstimulus interval discrimination eyeblink conditioning in juvenile rats

et al. 2009

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“…To that end, we have previously examined CR acquisition at multiple US intensities in the adult rat [25]. In line with results in the rabbit [18], US intensity was found to be critically important for CR acquisition, with the rate and asymptote of conditioned responding greater in rats trained with a 2.0 than 1.0 mA periorbital shock US [25]. …”

Section: Introductionmentioning

confidence: 86%

Associative and non-associative blinking in classically conditioned adult rats

Lindquist

Vogel

Steinmetz

2009

Physiology & Behavior

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Over the last several years, a growing number of investigators have begun using the rat in classical eyeblink conditioning experiments, yet relatively few parametric studies have been done to examine the nature of conditioning in this species. We report here a parametric analysis of classical eyeblink conditioning in the adult rat using two conditioned stimulus (CS) modalities (light or tone) and three interstimulus intervals (ISI; 280, 580, or 880 ms). Rats trained at the shortest ISI generated the highest percentage of conditioned eyeblink responses (CRs) by the end of training. At the two longer ISIs, rats trained with the tone CS produced unusually high CR percentages over the first few acquisition sessions, relative to rats trained with the light CS. Experiment 2 assessed non-associative blink rates in response to presentations of the light or tone, in the absence of the US, at the same ISI durations used in paired conditioning. Significantly more blinks occurred with longer than shorter duration lights or tones. A higher blink rate was also recorded at all three durations during the early tone-alone sessions. The results suggest that early in classical eyeblink conditioning, rats trained with a tone CS may emit a high number of non-associative blinks, thereby inflating the CR frequency reported at this stage of training.

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“…Hippocampal CA1 unit activity showed a similar pattern across treatment groups. Importantly, no differences between ethanol-exposed and control rats in their responsiveness to the aversive US or in their performance during explicitly unpaired training have been reported (Green et al, 2000; Lindquist, 2013; Lindquist et al, 2007; Tran et al, 2007). Nor were significant differences in startle reactivity to the tone CS found in the current study between the various treatment groups, in agreement with other reports (e.g., Stanton and Goodlett, 1998).…”

Section: Discussionmentioning

confidence: 97%

“…Indeed, even a single ethanol dose administered on PD 4 is sufficient to produce Purkinje cell death when these cells are counted in rats sacrificed just 10 hours after exposure (Idrus and Napper, 2012). Ethanol exposure in early development is proposed to induce rapid apoptosis in the cerebellum (and associated brainstem structures), leading to long-lasting impairments in the acquisition of delay EBC in both juvenile and adult rats (Brown et al, 2007; Green et al, 2000; Lindquist et al, 2007; Stanton and Goodlett, 1998; Tran et al, 2007), although some differences in CR timing have been seen in ethanol-exposed rats across the 2 age groups with more complex forms of EBC (Brown et al, 2009; Brown et al, 2008). IP damage may preferentially affect delay EBC performance, with acquisition deficits — defined by percentage of CRs or the blink’s peak amplitude — significantly correlated to ethanol-induced IP cell loss (Green et al, 2002b; Young et al, 2010).…”

Section: Introductionmentioning

confidence: 99%

Neonatal ethanol exposure results in dose-dependent impairments in the acquisition and timing of the conditioned eyeblink response and altered cerebellar interpositus nucleus and hippocampal CA1 unit activity in adult rats

Lindquist

Sokoloff

Steinmetz

2013

Alcohol

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Exposure to ethanol in neonatal rats results in reduced neuronal numbers in the cerebellar cortex and deep nuclei of juvenile and adult animals. This reduction in cell numbers is correlated with impaired delay eyeblink conditioning (EBC), a simple motor learning task in which a neutral conditioned stimulus (CS; tone) is repeatedly paired with a co-terminating unconditioned stimulus (US; periorbital shock). Across training, cell populations in the interpositus (IP) nucleus model the temporal form of the eyeblink conditioned response (CR). The hippocampus, though not required for delay EBC, also shows learning-dependent increases in CA1 and CA3 unit activity. In the present study, rat pups were exposed to 0, 3, 4, or 5 mg/kg/day of ethanol during postnatal days (PD) 4–9. As adults, CR acquisition and timing were assessed during 6 training sessions of delay EBC with a short (280 msec) interstimulus interval (ISI; time from CS onset to US onset) followed by another 6 sessions with a long (880 msec) ISI. Neuronal activity was recorded in the IP and area CA1 during all 12 sessions. The high-dose rats learned the most slowly and, with the moderate-dose rats, produced the longest CR peak latencies over training to the short ISI. The low dose of alcohol impaired CR performance to the long ISI only. The 3E (3 mg/kg/day of ethanol) and 5E (5 mg/kg/day of ethanol) rats also showed slower-than-normal increases in learning-dependent excitatory unit activity in the IP and CA1. The 4E (4 mg/kg/day of ethanol) rats showed a higher rate of CR production to the long ISI and enhanced IP and CA1 activation when compared to the 3E and 5E rats. The results indicate that binge-like ethanol exposure in neonatal rats induces long-lasting, dose-dependent deficits in CR acquisition and timing and diminishes conditioning-related neuronal excitation in both the cerebellum and hippocampus.

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Ethanol-exposed neonatal rats are impaired as adults in classical eyeblink conditioning at multiple unconditioned stimulus intensities

Cited by 12 publications

References 53 publications

Neonatal binge alcohol exposure produces dose dependent deficits in interstimulus interval discrimination eyeblink conditioning in juvenile rats

Neonatal binge alcohol exposure produces dose dependent deficits in interstimulus interval discrimination eyeblink conditioning in juvenile rats

Associative and non-associative blinking in classically conditioned adult rats

Neonatal ethanol exposure results in dose-dependent impairments in the acquisition and timing of the conditioned eyeblink response and altered cerebellar interpositus nucleus and hippocampal CA1 unit activity in adult rats

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