Abstract
Patients suffering from mood disorders and anxiety commonly exhibit hypothalamic–pituitary–adrenocortical (HPA) axis and autonomic hyperresponsiveness. A wealth of data using preclinical animal models and human patient samples indicate that p11 deficiency is implicated in depression-like phenotypes. In the present study, we used p11-deficient (p11KO) mice to study potential roles of p11 in stress responsiveness. We measured stress response using behavioral, endocrine, and physiological readouts across early postnatal and adult life. Our data show that p11KO pups respond more strongly to maternal separation than wild-type pups, even though their mothers show no deficits in maternal behavior. Adult p11KO mice display hyperactivity of the HPA axis, which is paralleled by depression- and anxiety-like behaviors. p11 was found to be highly enriched in vasopressinergic cells of the paraventricular nucleus and regulates HPA hyperactivity in a V1B receptor-dependent manner. Moreover, p11KO mice display sympathetic–adrenal–medullary (SAM) axis hyperactivity, with elevated adrenal norepinephrine and epinephrine levels. Using conditional p11KO mice, we demonstrate that this SAM hyperactivity is partially regulated by the loss of p11 in serotonergic neurons of the raphe nuclei. Telemetric electrocardiogram measurements show delayed heart rate recovery in p11KO mice in response to novelty exposure and during expression of fear following auditory trace fear conditioning. Furthermore, p11KO mice have elevated basal heart rate in fear conditioning tests indicating increased autonomic responsiveness. This set of experiments provide strong and versatile evidence that p11 deficiency leads to HPA and SAM axes hyperresponsiveness along with increased stress reactivity.
Highlights
A healthy neuroendocrine and autonomic response to stress, regulated by the hypothalamic–pituitary–adrenocortical
The number of separation-induced pup ultrasonic vocalizations (USVs) was measured for 5 min at postnatal day (PND) 3, 6, 9, and 12 from litters undergoing daily maternal separation (MS) and from non-stressed litters
We found that unstressed p11 knockout (p11KO) female mice show ~50% higher constitutive activity-regulated cytoskeleton protein (ARC) mRNA expression in the paraventricular nucleus (PVN) than the WT counterparts (p < 0.01, Fig. 2g)
Summary
A healthy neuroendocrine and autonomic response to stress, regulated by the hypothalamic–pituitary–adrenocortical. Mice with p11 deficiency, via genetic deletion or RNAi knockdown, display a depressivelike phenotype [12, 13]. Several studies have shown that deletion of p11 in brain areas that express these receptors induces depression- and anxiety-like behavioral traits and/or reduces therapeutic responsiveness to antidepressants [15,16,17,18,19]. There are no studies that have investigated the role of p11 in the regulation of the HPA and SAM axes, despite their critical roles in the development of depressive disorders. To assess the importance of p11 expression to HPA and SAM axes functions, we measured the response of p11-deficient mice to various stressors using behavioral, endocrine, and physiological readouts across early postnatal and adult life
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