Depression is recognized as a highly chronic and recurrent disorder. Each successive episode increases susceptibility to future relapses. The current study aimed to develop an animal model of chronic stress relevant to human recurrent depression in order to examine possible neurobiological mechanisms behind this increased vulnerability. We hypothesized that rats with a prior depression-like episode would be sensitized to subsequent stress, developing depression-like behaviors in response to shorter glucocorticoid exposures. Rats were given corticosterone (CORT) or vehicle injections for one, two, or three 21-day cycles, followed by recovery periods. A series of behavioural assessments were conducted at specific time points after CORT treatment or the recovery period. After behavioral testing, the rats were sacrificed for immunohistochemical analyses of the extracellular matrix protein reelin, which is involved in regulating neural plasticity and is decreased in the hippocampus of depression patients. We found that repeated and cyclic exposure to high levels of CORT escalated depression-like behavior (i.e., forced swim test, sucrose preference test) without altering general locomotor activity (i.e., open field test). Changes in depression-like behaviors were accompanied by cumulative and persistent decreases in reelin-positive cells in the dentate gyrus subgranular zone. These data support the idea of an exacerbation of behavioral and neurochemical alterations with recurrent episodes, which highlights the importance of early therapeutic interventions.
Keywords: CORT; Recurrent depression; Reelin; Relapse stress.
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