Medial prefrontal-perirhinal cortical communication is necessary for flexible response selection

Hernandez, Abbi R.; Reasor, Jordan E.; Truckenbrod, Leah M.; Lubke, Katelyn N.; Johnson, Sarah A.; Bizon, Jennifer L.; Maurer, Andrew P.; Burke, Sara N.

doi:10.1016/j.nlm.2016.10.012

Cited by 45 publications

(72 citation statements)

References 108 publications

(143 reference statements)

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“…In tasks that require choice between two potential outcomes presented simultaneously, rats tend to initially default to an egocentric response‐based strategy before learning to apply a more flexible task‐specific strategy (Hernandez et al, ; Lee & Solivan, ; Lee & Byeon, ; Jo & Lee, ). For example, both young and aged rats develop a strong bias toward selecting an object on a specific side of a choice platform (i.e., left vs. right) before learning to recognize and compare visual features and select a target object over a lure.…”

Section: Resultsmentioning

confidence: 99%

“…For example, both young and aged rats develop a strong bias toward selecting an object on a specific side of a choice platform (i.e., left vs. right) before learning to recognize and compare visual features and select a target object over a lure. Suppression of side bias as training progresses has been shown to correspond with an increase in correct responses guided by the task‐specific rule (Hernandez et al, ; Lee & Byeon, ). Based on the fact that both young and aged rats showed more checking behavior and better performance on Lure 1 trials, but less checking and poorer performance on Lure 2 and Lure 3 trials (Figures B and B), we asked whether rats showed evidence of suppressing a side bias when making correct responses across these trial types.…”

Section: Resultsmentioning

confidence: 99%

“…This analysis was motivated by observations that rats often default to simple, rule‐based response strategies on forced‐choice tasks, and must learn to suppress their initial strategy in order to apply a more complex task‐specific strategy. For example, in an object‐place paired‐associate (OPPA) task that requires learning object–reward associations contingent on spatial location within the test apparatus, rats initially adopt a side‐biased strategy to obtain the concealed food reward 50% of the time (Hernandez et al, ; Jo & Lee, ; Lee & Byeon, ; Lee & Solivan, ). We observed the same effect during initial object discrimination training in Experiment 1 (data not shown), and a side‐biased strategy remained evident on trials with greater target‐lure similarity during tests in Experiment 2.…”

Section: Discussionmentioning

confidence: 99%

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Rodent age‐related impairments in discriminating perceptually similar objects parallel those observed in humans

et al. 2017

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The ability to accurately remember distinct episodes is supported by high-level sensory discrimination. Performance on mnemonic similarity tasks, which test high-level discrimination, declines with advancing age in humans and these deficits have been linked to altered activity in hippocampal CA3 and dentate gyrus. Lesion studies in animal models, however, point to the perirhinal cortex as a brain region critical for sensory discriminations that serve memory. Reconciliation of the contributions of different regions within the cortical-hippocampal circuit requires the development of a discrimination paradigm comparable to the human mnemonic similarity task that can be used in rodents. In the present experiments, young and aged rats were cross-characterized on a spatial water maze task and two variants of an object discrimination task: one in which rats incrementally learned which object of a pair was rewarded and different pairs varied in their similarity (Experiment 1), and a second in which rats were tested on their ability to discriminate a learned target object from multiple lure objects with an increasing degree of feature overlap (Experiment 2). In Experiment 1, aged rats required more training than young to correctly discriminate between similar objects. Comparably, in Experiment 2, aged rats were impaired in discriminating a target object from lures when the pair shared more features. Discrimination deficits across experiments were correlated within individual aged rats, though, for the cohort tested, aged rats were not impaired overall in spatial learning and memory. This could suggest discrimination deficits emerging with age precede declines in spatial or episodic memory, an observation that has been made in humans. Findings of robust impairments in object discrimination abilities in the aged rats parallel results from human studies, supporting use of the developed tasks for mechanistic investigation of cortical-hippocampal circuit dysfunction in aging and disease.

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Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

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Rodent age‐related impairments in discriminating perceptually similar objects parallel those observed in humans

et al. 2017

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“…Rats were trained on the biconditional association task (BAT) as previously published (8,10,12). Briefly, rats were first trained to alternate between left and right arms of a V-shaped maze (see Figure 1) with a macadamia nut reward at the end of each arm.…”

Section: Behavioral Testingmentioning

confidence: 99%

Time-restricted feeding from adulthood to old age improves biconditional associative learning in geriatric rats regardless of macronutrient composition

Qp²,

Sn³

2020

Preprint

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Declining health and cognition are hallmarks of advanced age that reduce both the quality and length of the lifespan. While caloric restriction has been highlighted as a dietary intervention capable of improving the healthspan by restoring metabolic function in late life, time-restricted feeding and changes in dietary macronutrient composition may be more feasible alternatives with similar health outcomes. To investigate the potential of these two interventions, a pilot cohort of fully mature adult rats were placed on a time-restricted feeding regimen of a ketogenic or micronutrient and calorically matched control diet from 8 to 21 months of age. A third group of rats was permitted to eat standard chow ad libitum. At 22 months, all rats were then placed on time-restricted feeding and tested on a biconditional association task. While the data presented here are preliminary (small sample size of 3-4/diet group), additional animals are currently undergoing the feeding regimen, and will be added into the behavioral studies at a later date. For the current data, regardless of dietary composition, timerestricted-fed rats performed significantly better than ad libitum-fed rats. This observation could not be accounted for by differences in motivation, procedural or sensorimotor impairments, indicating that mid-life dietary interventions capable of preventing metabolic impairments may also serve to prevent age-related cognitive decline.

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“…While the objects remain the same throughout testing, the correct choice varies as a function of location within the maze. As this task requires the integration of object information with spatial location to flexibly update behavior, it depends on connectivity between the prefrontal cortex, perirhinal cortex and hippocampus [21][22][23]. Female rats have been documented as performing differently from males on other prefrontal cortical dependent behaviors, such as deliberative decision making in the face of risk of punishment [24].…”

Section: Introductionmentioning

confidence: 99%

Sex Differences in Age-related Impairments Vary across Cognitive and Physical Assessments in Rats

Hernandez

Truckenbrod

Campos

et al. 2019

Preprint

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Inclusion of female subjects in biomedical research is imperative for understanding the mechanisms of age-related cognitive decline, as more than half of individuals older than 65 are female. Few behavioral and physical assays, however, have been conducted in both sexes within the same study. In the current experiments young and aged male and female rats underwent a battery of cognitive and physical assessments to examine for potential sex and age differences. Physical performance was measured with a rotarod test of motor coordination, assessment of maximum grip strength and swim speed. While there were differences between males and females in rotarod and grip strength, there was also a clear age-dependent decline in physical performance in both sexes. Cognitive assessment included the Morris watermaze test of hippocampal dependent spatial navigation and a biconditional association task (BAT) with a working memory (WM) component. Notably, a similar BAT has previously been validated as a more sensitive assay of age-related cognitive decline than the watermaze in male rats, which is replicated here in both female and male rats. Furthermore, young and aged female rats both spent a similar percent of time in each estrus cycle phase and phase did not influence WM/BAT performance. In conclusion, robust age differences in biconditional association task performance are observed in both sexes with no need for increased cohort size. Thus, future studies utilizing similar behavioral paradigms should be representative of the human population they intend to model through the inclusion of female subjects.

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Medial prefrontal-perirhinal cortical communication is necessary for flexible response selection

Cited by 45 publications

References 108 publications

Rodent age‐related impairments in discriminating perceptually similar objects parallel those observed in humans

Rodent age‐related impairments in discriminating perceptually similar objects parallel those observed in humans

Time-restricted feeding from adulthood to old age improves biconditional associative learning in geriatric rats regardless of macronutrient composition

Sex Differences in Age-related Impairments Vary across Cognitive and Physical Assessments in Rats

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