The Behavioural, Neuroanatomical, and Molecular Effects of Chronic Social Stress on Mice That Lack Zinc Transporter 3 and Vesicular Zinc
Date
2018-12-04
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Abstract
In certain neurons, zinc ions are stored in synaptic vesicles by a dedicated vesicular zinc transporter, called zinc transporter 3 (ZnT3). Vesicular zinc can then be released synaptically, in an activity-dependent fashion, to transmit signals by modulating a plethora of targets. To understand the function of vesicular zinc in the central nervous system, a useful tool is the ZnT3 knockout (KO) mouse, which lacks ZnT3 and, as a result, lacks vesicular zinc. Behavioural characterization of these mice has revealed subtle abnormalities in cognition and sensory processing. In addition, a pattern is becoming apparent, wherein ZnT3 KO mice behave normally under standard laboratory conditions but fail to exhibit neural plasticity and behavioural adaptation in response to certain treatments or experiences. The experiments described in this thesis were designed to assess how ZnT3 KO mice would respond to the experience of repeated social defeat (RSD) stress, a method of modelling depression-like behaviour in rodents, and to test the hypothesis that ZnT3 KO mice would fail to exhibit stress-induced neural plasticity, resulting in an altered behavioural response to stress. The primary finding was that, compared to wild type (WT) mice, ZnT3 KO mice exhibited reduced social avoidance of a novel conspecific following RSD, suggesting reduced susceptibility to the depression-like behaviour of social withdrawal. Both genotypes were equally susceptible to anxiety-like behaviour following RSD, however. To investigate the mechanisms behind the seemingly protective effect of eliminating vesicular zinc on stress-induced social avoidance, several neuroanatomical parameters were examined. No evidence was found that microglial activation, hippocampal neurogenesis, or hippocampal brain-derived neurotrophic factor (BDNF) levels could account for the difference in behavioural outcome. However, some evidence was found that altered structure of the corpus callosum or reduced BDNF levels in the nucleus accumbens may contribute to the protection against social avoidance in ZnT3 KO mice. Further work will be required to validate and extend these findings, in order to more fully understand the mechanisms behind the altered behavioural response to chronic stress – and the altered capacity for experience-dependent neuroplasticity – in mice that lack vesicular zinc.
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Zinc, ZnT3, Stress, Neurogenesis, Fluoxetine, BDNF
Citation
McAllister, B. B. (2018). The behavioural, neuroanatomical, and molecular effects of chronic social stress on mice that lack zinc transporter 3 and vesicular zinc (Doctoral thesis, University of Calgary, Calgary, Canada). Retrieved from https://prism.ucalgary.ca. doi:10.11575/PRISM/34901