Premium
A longitudinal study of stress‐induced hippocampal volume changes in mice that are susceptible or resilient to chronic social defeat
Author(s) -
Tse Yiu Chung,
Montoya Ixchel,
Wong Alice S.,
Mathieu Axel,
Lissemore Jennifer,
Lagace Diane C.,
Wong Tak Pan
Publication year - 2014
Publication title -
hippocampus
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.767
H-Index - 155
eISSN - 1098-1063
pISSN - 1050-9631
DOI - 10.1002/hipo.22296
Subject(s) - hippocampal formation , hippocampus , psychopathology , psychology , neuroscience , mood disorders , medicine , physiology , endocrinology , clinical psychology , psychiatry , anxiety
ABSTRACT Hippocampal shrinkage is a commonly found neuroanatomical change in stress‐related mood disorders such as depression and post‐traumatic stress disorders (PTSD). Since the onset and severity of these disorders have been found to be closely related to stressful life events, and as stress alone has been shown to reduce hippocampal volume in animal studies, vulnerability to mood disorders may be related to a susceptibility to stress‐induced hippocampal shrinkage. However, a smaller hippocampal volume before stress exposure has also been suggested to confer vulnerability of stressed individuals to PTSD or depression. In this study, we examined the contribution of either innate hippocampal volume differences or hippocampal susceptibility to stress‐induced shrinkage to the formation of stress‐related psychopathology using longitudinal MRI measurements of hippocampal volume in inbred C57 mice before and after chronic social defeat stress. We found that only half of the stressed C57 mice were susceptible to stress and developed psychopathological behaviors such as social avoidance. The other half was resilient to stress and exhibited no social avoidance. Before exposure to stress, we observed a positive correlation between hippocampal volume and social avoidance. After chronic social defeat stress, we found significant increases in left hippocampal volume in resilient and nonstressed control mice. Intriguingly, this increase in hippocampal volume was not found in susceptible mice, suggesting an arrestment of hippocampal growth in these mice. Our findings suggest that both a susceptibility to stress‐induced hippocampal volume changes and a larger hippocampus before stress exposure confer vulnerability to psychopathology after chronic stress. © 2014 Wiley Periodicals, Inc.