Social defeat reproduces behavioral

and physiological ind

Social defeat reproduces behavioral

and physiological indices of depression including disruption of CRF and NE systems (Wood and et al, 2010, Wood, 2014, Chaijale and et al, 2014, Chaijale and et al, 2013 and Russo and et al, 2012), and would likely yield important information regarding the role of NPY in depressive behavior and disorders. Several rodent models of PTSD indicate that NPY expression in the brain following stress may be associated with susceptibility selleck products to PTSD-associated impairments. For example, rats displaying extreme anxiety and arousal following exposure to predator scent stress (PSS) had lower NPY protein levels in the cortex, amygdala, hippocampus, and periaqueductal grey compared to rodents that were less impaired or to unstressed controls (Cohen et al., 2012). Injection of NPY into the hippocampus 1 h after PSS reduced the development of anxiety-like behavior, Modulators hyperarousal, and cue-elicited freezing. Additionally, NPY administration reduced the prevalence of an extreme behavioral response (Cohen et al., 2012). Delivery of NPY to the brain by intranasal (IN) infusion has been used to examine its efficacy in the single prolonged stress (SPS) model of PTSD (Serova and et al, 2013, Laukova and et al, in press and Serova and et al, 2014). Intranasal NPY can elevate

CSF concentrations to a range that reduces anxiety SNS-032 price behavior after i.c.v. administration, while also reaching multiple stress responsive brain regions and leaving plasma NPY levels unchanged (Serova and et al, 2013 and Laukova and et al, in press). Pretreatment with IN NPY slowed the development of immobility during the forced swim portion of SPS, and reduced the induction of gene expression of the NE biosynthetic enzymes, tyrosine hydroxylase and dopamine Ketanserin beta hydroxylase, in the locus coeruleus shortly after SPS (Serova et al., 2013). SPS-induced increases in plasma corticosterone

and ACTH were also attenuated by IN NPY, suggesting either less activation or more rapid recovery of the hypothalamic-pituitary-adrenal (HPA) axis (Serova et al., 2013). Intranasal NPY administered prior to or immediately after SPS led to pronounced and long-lasting effects on the development of behavioral, neuroendocrine, and molecular impairments associated with PTSD. NPY greatly attenuated, and in many cases prevented, increases in anxiety, hyperarousal, and depression-like behavior observed 1–2 weeks after exposure to traumatic stress (Serova et al., 2013). NPY prevented SPS-triggered induction of CRF, glucocorticoid receptor (GR), and FKBP5 mRNAs and the reduction in phosphorylated-GR in the mediobasal hypothalamus (Laukova et al., in press). NPY also increased the expression and phosphorylation of GR in the hippocampus (Laukova et al., in press).

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