Abstract

BackgroundEnvironmental uncertainty, such as food deprivation, may alter internal milieu of nervous system through various mechanisms. In combination with circumstances of stress or aging, high consumption of unsaturated fatty acids and oxygen can make neural tissues sensitive to oxidative stress (OS). For adult rats, diminished level of gonadal steroid hormones accelerates OS and may result in special behavioral manifestations. This study was aimed to partially answer the question whether OS mediates trade-off between food hoarding and food intake (fat hoarding) in environmental uncertainty (e.g., fluctuations in food resource) within gonadectomized mouse model in the presence of food deprivation-induced food hoarding behavior.ResultsHoarding behavior was not uniformly expressed in all male mice that exposed to food deprivation. Extended phenotypes including hoarder and non-hoarder mice stored higher and lower amounts of food respectively as compared to that of low-hoarder mice (normal phenotype) after food deprivation. Results showed that neural oxidative status was not changed in the presence of hoarding behavior in gonadectomized mice regardless of tissue type, however, glutathione levels of brain tissues were increased in the presence of hoarding behavior. Decreased superoxide dismutase activity in brain and spinal cord tissues and increased malondialdehyde in brain tissues of gonadectomized mice were also seen.ConclusionsAlthough, food deprivation-induced hoarding behavior is a strategic response to food shortage in mice, it did not induce the same amount of hoarding across all colony mates. Hoarding behavior, in this case, is a response to the environmental uncertainty of food shortage, therefore is not an abnormal behavior. Hoarding behavior induced neural OS with regard to an increase in brain glutathione levels but failed to show other markers of neural OS. Decreased superoxide dismutase activity in brain and spinal cord tissues and increased malondialdehyde levels in brain tissues of gonadectomized mice could be a hallmark of debilitated antioxidative defense and more lipid peroxidation due to reduced amount of gonadal steroid hormones during aging.

Highlights

  • Environmental uncertainty, such as food deprivation, may alter internal milieu of nervous system through various mechanisms

  • Environmental uncertainties such as food shortage, low food availability, coldness, and short day-length trigger hoarding [3, 6]. Internal factors such as endogenous fat depots, internal energy, gonadal steroids, metabolic hormones, glucocorticoids, neuropeptide regulators of food intake, and catecholamines especially dopamine are all known to alter hoarding behavior [6,7,8,9]. It remains an open question whether oxidative stress (OS) mediates the trade-off between food hoarding and food intake in times of food shortage as an example of environmental uncertainty

  • Hoarding test Classifying of animals into hoarder, low-hoarder and non-hoarder groups showed that there was no significant correlation between the body weight before hoarding and the amount of hoarded food in screened population (r = 0.274, p = 0.097)

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Summary

Introduction

Environmental uncertainty, such as food deprivation, may alter internal milieu of nervous system through various mechanisms. Environmental uncertainties such as food shortage, low food availability, coldness, and short day-length trigger hoarding [3, 6] Internal factors such as endogenous fat depots, internal energy, gonadal steroids, metabolic hormones, glucocorticoids, neuropeptide regulators of food intake, and catecholamines especially dopamine are all known to alter hoarding behavior [6,7,8,9]. It remains an open question whether oxidative stress (OS) mediates the trade-off between food hoarding and food intake (fat hoarding) in times of food shortage as an example of environmental uncertainty

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