Large nesting expression in deer mice remains stable under conditions of visual deprivation despite heightened limbic involvement: Perspectives on compulsive‐like behavior

Large nesting expression in deer mice remains stable under conditions of visual deprivation despite heightened limbic involvement: Perspectives on compulsive‐like behavior

Visual stimuli and limbic activation varyingly influence obsessive‐compulsive symptom expression and so impact treatment outcomes. Some symptom phenotypes, for example, covert repugnant thoughts, are likely less sensitive to sensory stimuli compared to symptoms with an extrinsic focus, that is, symp...

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Bibliographic Details
Published in:Journal of neuroscience research Vol. 102; no. 3; pp. e25320 - n/a
Main Authors: Marx, Harry, Krahe, Thomas E., Wolmarans, De Wet
Format: Journal Article
Language:English
Published: United States Wiley Subscription Services, Inc 01-03-2024
Subjects:
Animal models
Animals
anxiety
Behavior
Behavior, Animal - physiology
Cognition
Contamination
deer mouse
Deprivation
Disease Models, Animal
Hippocampus
Humans
nest building
Nesting
Nesting behavior
Noradrenaline
Norepinephrine
Obsessive-Compulsive Disorder - metabolism
obsessive‐compulsive disorder
Peromyscus
Phenotypes
Sensory stimuli
Serotonin
Sexual behavior
Visual deprivation
visual feedback
Visual perception
Visual stimuli
anxiety
nest building
visual feedback
obsessive‐compulsive disorder
deer mouse
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Summary:Visual stimuli and limbic activation varyingly influence obsessive‐compulsive symptom expression and so impact treatment outcomes. Some symptom phenotypes, for example, covert repugnant thoughts, are likely less sensitive to sensory stimuli compared to symptoms with an extrinsic focus, that is, symptoms related to contamination, safety, and “just‐right‐perceptions.” Toward an improved understanding of the neurocognitive underpinnings of obsessive‐compulsive psychobiology, work in naturalistic animal model systems is useful. Here, we explored the impact of visual feedback and limbic processes on 24 normal (NNB) and large (LNB) nesting deer mice, respectively (as far as possible, equally distributed between sexes). Briefly, after behavioral classification into either the NNB or LNB cohorts, mice of each cohort were separated into two groups each and assessed for nesting expression under either standard light conditions or conditions of complete visual deprivation (VD). Nesting outcomes were assessed in terms of size and neatness. After nesting assessment completion, mice were euthanized, and samples of frontal‐cortical and hippocampal tissues were collected to determine serotonin and noradrenaline concentrations. Our results show that LNB, as opposed to NNB, represents an inflexible and excessive behavioral phenotype that is not dependent on visually guided action‐outcome processing, and that it associates with increased frontal‐cortical and hippocampal noradrenaline concentrations, irrespective of lighting condition. Collectively, the current results are informing of the neurocognitive underpinnings of nesting behavior. It also provides a valuable foundation for continued investigations into the noradrenergic mechanisms that may influence the development and promulgation of excessive, rigid, and inflexible behaviors. Visual stimuli and limbic activation varyingly influence obsessive‐compulsive symptoms. We explored the impact of visual feedback and limbic processes on normal (NNB) and large (LNB) nesting deer mice. Nesting outcomes were assessed in terms of size and neatness, while limbic activation was measured by means of frontal‐cortical and hippocampal serotonin and noradrenaline analyses. We found that LNB, as opposed to NNB, is inflexible and excessive and is not dependent on visually guided feedback. It also associates with increased frontal‐cortical and hippocampal noradrenaline concentrations.
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ISSN:0360-4012
1097-4547
DOI:10.1002/jnr.25320