Abstract
Depression, a severe psychiatric disorder, has been studied for decades, but the underlying mechanisms still remain largely unknown. Depression is closely associated with alterations in dendritic spine morphology and spine density. Therefore, understanding dendritic spines is vital for uncovering the mechanisms underlying depression. Several chronic stress models, including chronic restraint stress (CRS), chronic unpredictable mild stress (CUMS), and chronic social defeat stress (CSDS), have been used to recapitulate depression-like behaviors in rodents and study the underlying mechanisms. In comparison with CRS, CUMS overcomes the stress habituation and has been widely used to model depression-like behaviors. CSDS is one of the most frequently used models for depression, but it is limited to the study of male mice. Generally, chronic stress causes dendritic atrophy and spine loss in the neurons of the hippocampus and prefrontal cortex. Meanwhile, neurons of the amygdala and nucleus accumbens exhibit an increase in spine density. These alterations induced by chronic stress are often accompanied by depression-like behaviors. However, the underlying mechanisms are poorly understood. This review summarizes our current understanding of the chronic stress-induced remodeling of dendritic spines in the hippocampus, prefrontal cortex, orbitofrontal cortex, amygdala, and nucleus accumbens and also discusses the putative underlying mechanisms.
Highlights
Depression, a severe psychiatric disorder [1, 2], affects up to 20% of the population in the US within their lifetime and is more prevalent in women than men [3,4,5,6]
Depending on duration and intensity of chronic stress, some studies report that exposure of animals to chronic restraint stress (CRS) induces depression-like behaviors such as anhedonia [164,165,166,167,168,169], which is a core symptom of human depression [10, 27]
Our results show that, during chronic unpredictable mild stress (CUMS), rats require three weeks to develop depression-like behaviors accompanied by both functional changes in CA3CA1 synapses and decreased spine density in the dendrites of CA1 and CA3 pyramidal neurons [24, 177]
Summary
Depression, a severe psychiatric disorder [1, 2], affects up to 20% of the population in the US within their lifetime and is more prevalent in women than men [3,4,5,6]. Chronic stress increases the levels of the stress hormone glucocorticoid and suppresses the production of new neurons in the hippocampus This response results in decreased dendritic spine density and synapse number and impaired memory [17, 20,21,22,23,24]. The precise nature of relationships among the effects of chronic stress, the dysregulation of spine/synapse plasticity, and the molecular mechanisms of depression remain poorly understood [9]. This minireview summarizes our current understanding, obtained from animal models of chronic stress, of remodeling of dendritic spines in five regions of the brain during depression
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