The influence of stress and gonadal hormones on neuronal structure and function.

This article is part of a Special Issue "SBN 2014". The brain is highly plastic, allowing us to adapt and respond to environmental and physiological challenges and experiences. In this review, we discuss the relationships among alterations in dendritic arborization, spine morphology, and behavior due to stress exposure, endogenous hormone fluctuation, or exogenous hormonal manipulation.

Sex differences and chronic stress effects on the neural circuitry underlying fear conditioning and extinction.

There are sex differences in the rates of many stress-sensitive psychological disorders such as posttraumatic stress disorder (PTSD). As medial prefrontal cortex and amygdala are implicated in many of these disorders, understanding differential stress effects in these regions may shed light on the mechanisms underlying sex-dependent expression of disorders like depression and anxiety. Prefrontal cortex and amygdala are key regions in the neural circuitry underlying fear conditioning and extinction, which thus has emerged as a useful model of stress influences on the neural circuitry underlying regulation of emotional behavior.

Social deficits and perseverative behaviors, but not overt aggression, in MAO-A hypomorphic mice.

Monoamine oxidase (MAO)-A is a key enzyme for the degradation of brain serotonin (5-hydroxytryptamine, 5-HT) and norepinephrine (NE). In humans and mice, total MAO-A deficiency results in high 5-HT and NE levels, as well as elevated reactive aggression. Here we report the generation of MAO-A(Neo) mice, a novel line of hypomorphic MAO-A mutants featuring the insertion of a floxed neomycin-resistance cassette in intron-12 of the Maoa gene.

Lesion of infralimbic cortex occludes stress effects on retrieval of extinction but not fear conditioning.

Chronic stress produces dendritic retraction in medial prefrontal cortex and impairs retrieval of extinction of conditioned fear, a behavior mediated by the infralimbic region (IL) of medial prefrontal cortex. To test the hypothesis that stress-induced changes in IL contribute to the stress-induced impairment in extinction retrieval, we performed an occlusion experiment in which we assessed the effects of stress alone, lesion of IL alone, and the combined effects of stress and lesion on extinction retrieval. If IL is the substrate upon which stress acts to produce deficits in extinction retrieval, then prior removal of IL should prevent the effect of stress on extinction retrieval.

Strain differences in stress responsivity are associated with divergent amygdala gene expression and glutamate-mediated neuronal excitability.

Stress is a major risk factor for numerous neuropsychiatric diseases. However, susceptibility to stress and the qualitative nature of stress effects on behavior differ markedly among individuals. This is partly because of the moderating influence of genetic factors.