LaTonia Stiner scite author profile

Psychosocial stress is associated with altered immune function and development of psychological disorders including anxiety and depression. Here we show that repeated social defeat in mice increased c-Fos staining in brain regions associated with fear and threat appraisal and promoted anxiety-like behavior in a β-adrenergic receptor-dependent manner. Repeated social defeat also significantly increased the number of CD11b+/CD45high/Ly6Chigh macrophages that trafficked to the brain. In addition, several inflammatory markers were increased on the surface of microglia (CD14, CD86, and TLR4) and macrophages (CD14 and CD86) after social defeat. Repeated social defeat also increased the presence of de-ramified microglia in the medial amygdala, prefrontal cortex, and hippocampus. Moreover, mRNA analysis of microglia indicated that repeated social defeat increased levels of interleukin (IL)-1β and reduced levels of glucocorticoid responsive genes (GILZ and FKBP51). The stress-dependent changes in microglia and macrophages were prevented by propranolol, a β-adrenergic receptor antagonist. Microglia isolated from socially defeated mice and cultured ex vivo produced markedly higher levels of IL-6, tumor necrosis factor (TNF)-α, and monocyte chemoattractant protein-1 (MCP-1) after stimulation with lipopolysaccharide (LPS) compared to microglia from control mice. Last, repeated social defeat increased c-Fos activation in IL-1 receptor type-1 deficient (IL-1r1-/-) mice, but did not promote anxiety-like behavior or microglia activation in the absence of functional IL-1 receptor type-1. These findings indicate that repeated social defeat-induced anxiety-like behavior and enhanced reactivity of microglia was dependent on activation of β-adrenergic and IL-1 receptors.

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Beta adrenergic blockade decreases the immunomodulatory effects of social disruption stress

Hanke

Powell

Stiner

et al. 2012

Brain, Behavior, and Immunity

130

177

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During physiological or psychological stress, catecholamines produced by the sympathetic nervous system (SNS) regulate the immune system. Previous studies report that the activation of β-adrenergic receptors (βARs) mediates the actions of catecholamines and increases pro-inflammatory cytokine production in a number of different cell types. The impact of the SNS on the immune modulation of social defeat has not been examined. The following studies were designed to determine whether SNS activation during social disruption stress (SDR) influences anxiety-like behavior as well as the activation, priming, and glucocorticoid resistance of splenocytes after social stress. CD-1 mice were exposed to one, three, or six cycles of SDR and HPLC analysis of the plasma and spleen revealed an increase in catecholamines. After six cycles of SDR the open field test was used to measure behaviors characteristic of anxiety and indicated that the social defeat induced increase in anxiety-like behavior was blocked by pre-treatment with the β-adrenergic antagonist propranolol. Pre-treatment with the β-adrenergic antagonist propranolol did not significantly alter corticosterone levels indicating no difference in activation of the hypothalamic–pituitary–adrenal axis. In addition to anxiety-like behavior the SDR induced splenomegaly and increase in plasma IL-6, TNFα, and MCP-1 were each reversed by pre-treatment with propranolol. Furthermore, flow cytometric analysis of cells from propranolol pretreated mice reduced the SDR-induced increase in the percentage of CD11b+ splenic macrophages and significantly decreased the expression of TLR2, TLR4, and CD86 on the surface of these cells. In addition, supernatants from 18 h LPS-stimulated ex vivo cultures of splenocytes from propranolol-treated SDR mice contained less IL-6. Likewise propranolol pre-treatment abrogated the glucocorticoid insensitivity of CD11b+ cells ex vivo when compared to splenocytes from SDR vehicle-treated mice. Together, this study demonstrates that the immune activation and priming effects of SDR result, in part, as a consequence of SNS activation.

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Roles of NCX and PMCA in Basolateral Calcium Export Associated with Mineralization Cycles and Cold Acclimation in Crayfish

Wheatly

Gao

Stiner

et al. 2007

Annals of the New York Academy of Sciences

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Basolateral Na+/Ca2+ exchanger (NCX) and plasma membrane Ca2+ ATPase (PMCA) are the primary transmembrane proteins that export calcium (Ca2+) from cells. In our lab we use a nonmammalian animal model, the freshwater crayfish, to study cellular Ca2+ regulation. Two experimental conditions are employed to effect Ca2+ dyshomeostasis: (a) in the postmolt stage of the crustacean molting cycle increased unidirectional Ca2+ influx associated with cuticular mineralization is accompanied by elevated basolateral Ca2+ export (compared with intermolt Ca balance); and (b) exposure of the poikilothermic crayfish to cold acclimation (4 degrees C) causes influx of Ca2+ into cells, which is compensated by increased basolateral Ca2+ export (compared with exposure to 23 degrees C). This study compares expression of both NCX and PMCA mRNA (real-time PCR) and protein (Western) in both epithelial (kidney) and nonepithelial tissue (tail muscle) during elevated basolateral Ca2+ export. Both experimental treatments produced increases in NCX and PMCA expression (mRNA and protein) in both tissues. Mineralization produced greater upregulation of mRNA in kidney than in tail, whereas cold acclimation yielded comparable increases in both tissues. Protein expression patterns were generally confirmatory of real-time PCR data although expression changes were less pronounced. Both experimental treatments appear to increase basolateral Ca2+ export.

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Upregulation of NCX Protein in Hepatopancreas and Antennal Gland of Freshwater Crayfish Associated with Elevated CA2+ Flux

Stiner

Gao

Wheatly

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Stress-induced increases in bacterial killing are p38 dependent (94.9)

Allen¹,

Stiner²,

Hufnagle³

et al. 2010

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Social Disruption (SDR), a murine social stressor, results in an increased reactivity of splenic CD11b+ macrophages to inflammatory stimuli. For example, SDR leads to increased cytokine production and glucocorticoid insensitivity upon lipopolysaccharide stimulation. Moreover, SDR enhances the ability of these macrophages to kill Escherichia coli partly through TLR4-induced expression of inducible nitric oxide synthase (iNOS). The MAPK p38 has extensive known relationships to a number of these SDR characteristics and previous work has also shown that levels of phosphorylated p38 are increased in CD11b+ splenocytes following SDR. As such, p38 is a likely common link among these various stress-induced immunological changes in this model. These experiments were designed to test the hypothesis that inhibiting p38 would significantly reduce the stress-induced increase in killing of E. coli. SDR normally significantly (p < 0.05) increases the percentage of bacteria killed; however, when p38 is inhibited, we found that the percentage killed is reduced to baseline. Additionally, iNOS expression in stressed animals stimulated with E.coli is significantly enhanced in SDR-exposed splenocytes but, p38 inhibition eliminated this increase. Taken together, the negation of the enhanced killing effect and significant decrease in iNOS expression following p38 inhibition supports the hypothesis that the MAPK p38 has an important role in the stress-induced increase in bacterial killing.

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LaTonia Stiner

β-Adrenergic Receptor Antagonism Prevents Anxiety-Like Behavior and Microglial Reactivity Induced by Repeated Social Defeat

Beta adrenergic blockade decreases the immunomodulatory effects of social disruption stress

Roles of NCX and PMCA in Basolateral Calcium Export Associated with Mineralization Cycles and Cold Acclimation in Crayfish

Upregulation of NCX Protein in Hepatopancreas and Antennal Gland of Freshwater Crayfish Associated with Elevated CA2+ Flux

Stress-induced increases in bacterial killing are p38 dependent (94.9)

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