Activation of Vagal Afferents after Intravenous Injection of Interleukin-1β: Role of Endogenous Prostaglandins

Ek, Monica; Kurosawa, Mieko; Lundeberg, Thomas; Ericsson, Anders

doi:10.1523/jneurosci.18-22-09471.1998

Cited by 375 publications

(260 citation statements)

References 72 publications

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“…Thus, it has been reported that vagal afferents express IL-1R1 (Ek et al, 1998) and that they mediate behavioral responses to immune challenge (Maier et al, 1998). Moreover, blockage of neural signaling in somatic nerves by local anesthesia has been shown to abolish centrally elicited responses to peripheral immune challenge (Belevych et al, 2010;Roth and De Souza, 2001).…”

Section: Discussionmentioning

confidence: 99%

Interleukin-1β induced activation of the hypothalamus–pituitary–adrenal axis is dependent on interleukin-1 receptors on non-hematopoietic cells

Matsuwaki

Eskilsson

Kugelberg

et al. 2014

Brain, Behavior, and Immunity

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The proinflammatory cytokine interleukin-1β (IL-1β) plays a major role in the signal transduction of immune stimuli from the periphery to the central nervous system, and has been shown to be an important mediator of the immune-induced stress hormone release. The signaling pathway by which IL-1β exerts this function involves the bloodbrain-barrier and induced central prostaglandin synthesis, but the identity of the bloodbrain-barrier cells responsible for this signal transduction has been unclear, with both endothelial cells and perivascular macrophages suggested as critical components. Here, using an irradiation and transplantation strategy, we generated mice expressing IL-1 type 1 receptors (IL-1R1) either in hematopoietic or non-hematopoietic cells and subjected these mice to peripheral immune challenge with IL-1β. Following both intraperitoneal and intravenous administration of IL-1β, mice lacking IL-1R1 in hematopoietic cells showed induced expression of the activity marker c-Fos in the paraventricular hypothalamic nucleus, and increased plasma levels of ACTH and corticosterone. In contrast, these responses were not observed in mice with IL-1R1 expression only in hematopoietic cells. Immunoreactivity for IL-1R1 was detected in brain vascular cells that displayed induced expression of the prostaglandin synthesizing enzyme cyclooxygenase-2 and that were immunoreactive for the endothelial cell marker CD31, but was not seen in cell positive for the brain macrophage marker CD206. These results imply that activation of the HPA-axis by IL-1β is dependent on IL-1R1s on nonhematopoietic cells, such as brain endothelial cells, and that IL-1R1 on perivascular macrophages are not involved. Matsuwaki et al., p. 3

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Section: Discussionmentioning

confidence: 99%

Interleukin-1β induced activation of the hypothalamus–pituitary–adrenal axis is dependent on interleukin-1 receptors on non-hematopoietic cells

Matsuwaki

Eskilsson

Kugelberg

et al. 2014

Brain, Behavior, and Immunity

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“…In addition, both the magnitude and duration of LPS-induced inhibition of social investigation were greater in long-day as compared to short-day rats. The primary mediators of LPS-induced sickness behaviors are IL-1β, IL-6 and TNFα, which act both in the periphery and in the CNS to regulate ingestive behavior and emotional tone (Kent et al, 1992;Ek et al, 1998;Quan et al, 1998;Konsman et al, 2000;Dantzer et al, 2001). The present results suggest that functionally-significant aspects of this immune-neural pathway may be altered following adaptation to short photoperiods.…”

Section: Discussionmentioning

confidence: 99%

Winter day lengths enhance T lymphocyte phenotypes, inhibit cytokine responses, and attenuate behavioral symptoms of infection in laboratory rats

Prendergast¹,

Kampf-Lassin²,

Yee³

et al. 2007

Brain, Behavior, and Immunity

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Annual variations in day length (photoperiod) trigger changes in the immune and reproductive system of seasonally-breeding animals. The purpose of this study was to determine whether photoperiodic changes in immunity depend on concurrent photoperiodic responses in the reproductive system, or whether immunological responses to photoperiod occur independent of reproductive responses. Here we report photoperiodic changes in enumerative, functional, and behavioral aspects of the immune system, and in immunomodulatory glucocorticoid secretion, in reproductively non-photoperiodic Wistar rats. T-cell numbers (CD3+, CD8+, CD8+CD25+, CD4+CD25+) were higher in the blood of rats housed in short as opposed to long day lengths for 10 weeks. Following a simulated bacterial infection (E. coli LPS; 125 μg/kg) the severity of several acute-phase sickness behaviors (anorexia, cachexia, neophobia, and social withdrawal) were attenuated in short days. LPS-stimulated IL-1β and IL-6 production were comparable between photoperiods, but plasma TNFα was higher in longday relative to short-day rats. In addition, corticosterone concentrations were higher in short-day relative to long-day rats. The data are consistent with the hypothesis that photoperiodic regulation of the immune system can occur entirely independently of photoperiodic regulation of the reproductive system. In the absence of concurrent reproductive responses, short days increase the numbers of leukocytes capable of immunosurveillance and inhibition of inflammatory responses, increase proinflammatory cytokine production, increase immunomodulatory glucocorticoid secretion, and ultimately attenuate behavioral responses to infection. Seasonal changes in the host immune system, endocrine system, and behavior may contribute to the seasonal variability in disease outcomes, even in reproductively non-photoperiodic mammals.

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“…The cytokine actions may include directly producing discharge of nerve fibers. [25][26][27] The slow pathway starts with cytokine production by macrophages that can act on the circumventricular organs (CVOs) and choroid plexus surrounding brain ventricles. These regions have no blood-brain barrier.…”

Section: Preclinical Evidence Consistent With Roles For Cytokines In mentioning

confidence: 99%

Are the symptoms of cancer and cancer treatment due to a shared biologic mechanism?

Cleeland

Bennett

Dantzer

et al. 2003

Cancer

471

340

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BACKGROUNDCancers and cancer treatments produce multiple symptoms that collectively cause a symptom burden for patients. These symptoms include pain, wasting, fatigue, cognitive impairment, anxiety, and depression, many of which co‐occur. There is growing recognition that at least some of these symptoms may share common biologic mechanisms.METHODSIn November 2001, basic and clinical scientists met to consider evidence for a cytokine‐immunologic model of symptom expression along with directions for future research.RESULTSThe characteristics of cytokine‐induced sickness behavior in animal models have much in common with those of symptomatic cancer patients. Sickness behavior refers to a set of physiologic and behavioral responses observed in animals after the administration of infectious or inflammatory agents or certain proinflammatory cytokines. In some cases, these responses can be prevented by cytokine antagonists. A combination of animal and human research suggests that several cancer‐related symptoms may involve the actions of proinflammatory cytokines.CONCLUSIONSBased on the similarities between cancer symptoms and sickness behavior, the authors discussed approaches to further test the implications of the relationship between inflammatory cytokines and symptoms for both symptom treatment and symptom prevention. Cancer 2003;97:2919–25. © 2003 American Cancer Society.DOI 10.1002/cncr.11382

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Activation of Vagal Afferents after Intravenous Injection of Interleukin-1β: Role of Endogenous Prostaglandins

Cited by 375 publications

References 72 publications

Interleukin-1β induced activation of the hypothalamus–pituitary–adrenal axis is dependent on interleukin-1 receptors on non-hematopoietic cells

Interleukin-1β induced activation of the hypothalamus–pituitary–adrenal axis is dependent on interleukin-1 receptors on non-hematopoietic cells

Winter day lengths enhance T lymphocyte phenotypes, inhibit cytokine responses, and attenuate behavioral symptoms of infection in laboratory rats

Are the symptoms of cancer and cancer treatment due to a shared biologic mechanism?

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