Preoptic nitric oxide attenuates endotoxic fever in guinea pigs by inhibiting the POA release of norepinephrine

Feleder, Carlos; Perlik, Vit; Blatteis, Clark M.

doi:10.1152/ajpregu.00068.2007

Cited by 21 publications

(11 citation statements)

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“…The finding that this PGE 2 , however, was not integral to the initiation of the febrile response nor, indeed, to its continuation is novel and intriguing as regards LPS-induced fever, although other fevers caused by certain cytokines have been reported previously to occur independently of central PGE 2 (see Ref. 24). …”

Section: Discussionmentioning

confidence: 86%

“…The free radicals in this case could be generated by the auto-oxidation of NE and/or be nitric oxide; the latter is also released locally in the POA after LPS administration (24). The finding that this PGE 2 , however, was not integral to the initiation of the febrile response nor, indeed, to its continuation is novel and intriguing as regards LPS-induced fever, although other fevers caused by certain cytokines have been reported previously to occur independently of central PGE 2 (see Ref.…”

Section: Discussionmentioning

confidence: 98%

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Preoptic norepinephrine mediates the febrile response of guinea pigs to lipopolysaccharide

Feleder¹,

Perlik²,

Blatteis³

2007

American Journal of Physiology-Regulatory, Integrative and Comp

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Norepinephrine (NE) microdialyzed in the preoptic area (POA) raises core temperature (Tc) via 1) α1-adrenoceptors (AR), quickly and independently of POA PGE2, and 2) α2-AR, after a delay and PGE2 dependently. Since systemic lipopolysaccharide (LPS) activates the central noradrenergic system, we investigated whether preoptic NE mediates LPS fever. We injected LPS (2 μg/kg iv) in guinea pigs prepared with intra-POA microdialysis probes and determined POA cerebrospinal (CSF) NE levels. We similarly microdialyzed prazosin (α1 blocker, 1 μg/μl), yohimbine (α2 blocker, 1 μg/μl), SC-560 [cyclooxygenase (COX)-1 blocker, 5 μg/μl], acetaminophen (presumptive COX-1v blocker, 5 μg/μl), or MK-0663 (COX-2 blocker, 0.5 μg/μl) in other animals before intravenous LPS and measured CSF PGE2. All of the agents were perfused at 2 μg/min for 6 h. Tc was monitored constantly. POA NE peaked within 30 min after LPS and then returned to baseline over the next 90 min. Tc increased within 12 min to a first peak at ∼60 min and to a second at ∼150 min and then declined over the following 2.5 h. POA PGE2 followed a concurrent course. Prazosin pretreatment eliminated the first Tc rise but not the second; PGE2 rose normally. Yohimbine pretreatment did not affect the first Tc rise, which continued unchanged for 6 h; the second rise, however, was absent, and PGE2 levels did not increase. SC-560 and acetaminophen did not alter the LPS-induced PGE2 and Tc rises; MK-0663 prevented both the late PGE2 and Tc rises. These results confirm that POA NE is pivotal in the development of LPS fever.

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Section: Discussionmentioning

confidence: 86%

Section: Discussionmentioning

confidence: 98%

Preoptic norepinephrine mediates the febrile response of guinea pigs to lipopolysaccharide

Feleder¹,

Perlik²,

Blatteis³

2007

American Journal of Physiology-Regulatory, Integrative and Comp

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“…It has been reported that a decrease in central NO increases the SNS activity (48,49). On the other hand, NO could inhibit the release of norepinephrine in the brain (50). Indeed, eNOS gene delivery increased NO production in rostral ventrolateral medulla (rVLM), the cardiovascular center, in cold-exposed rats (47).…”

Section: Nitric Oxide and Cihmentioning

confidence: 99%

Cardiovascular responses to cold exposure

Sun¹

2010

Front Biosci

118

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The prevalence of hypertension is increased in winter and in cold regions of the world. Cold temperatures make hypertension worse and trigger cardiovascular complications (stroke, myocardial infarction, heart failure, etc.). Chronic or intermittent exposure to cold causes hypertension and cardiac hypertrophy in animals. The purpose of this review is to provide the recent advances in the mechanistic investigation of cold-induced hypertension (CIH). Cold temperatures increase the activities of the sympathetic nervous system (SNS) and the renin-angiotensin system (RAS). The SNS initiates CIH via the RAS. Cold exposure suppresses the expression of eNOS and formation of NO, increases the production of endothelin-1 (ET-1), up-regulates ET A receptors, but down-regulates ET B receptors. The roles of these factors and their relations in CIH will be reviewed. Keywordscold-induced hypertension; cold-induced cardiac hypertrophy; cold; blood pressure; sympathetic nervous system; renin-angiotensin system; endothelin; mineralocorticoid receptor; eNOS; c-myc INTRODUCTIONOf the four seasons, the cold winter has the highest mortality and morbidity from cardiovascular complications (1-10). The prevalence of hypertension is increased in cold regions or in winter (1,(4)(5)(6)(7)(8)(10)(11)(12). Cold winters increase the severity of hypertension and trigger myocardial infarction and stroke in hypertensive patients (1,2,4,8,(13)(14)(15)(16)(17). Therefore, it is important to study how cold temperatures cause cardiovascular diseases. Studies from our laboratory have shown that chronic exposure of rats to cold (5°C) for 1-3 weeks is accompanied by a significant elevation of resting (systolic, diastolic and mean) blood pressure (BP), tachycardia and cardiac hypertrophy (19)(20)(21)(22)(23). These signs characterize the development of the syndrome of hypertension during chronic exposure to cold, namely cold-induced hypertension (CIH). Chronic exposure to cold also induces hypertension in dogs, rabbits, sheep, and young oxen (24,25). The elevated BP of rats after 7 weeks of exposure to cold did not return to pre-cold exposure level even after discontinuance of cold treatment for 4 weeks (26). Thus, an elevation of BP induced by a longer period of cold exposure might not be reversible after return to a thermo-neutral temperature. Intermittent exposure of rats to cold also induced hypertension, with a sigmoid relationship between the hours per day exposed to cold and systolic BP (27). It should be mentioned that elevation of BP is an important cardiovascular response to cold exposure, which provides enhanced circulatory function for the increased non-shivering NIH Public Access Author ManuscriptFront Biosci (Elite Ed). Author manuscript; available in PMC 2011 January 1. Published in final edited form as:Front Biosci (Elite Ed). ; 2: 495-503. NIH-PA Author ManuscriptNIH-PA Author Manuscript NIH-PA Author Manuscript thermogenesis and metabolic rate for the purpose to maintain body temperature. Indeed, rats are able to maintain their ...

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“…At the end of the study each rat was sacrificed, the brain removed, frozen on dry ice, and sections of 50μM were cut with a microtome cryostat (Microcom Model HM505E, Waldorf, Germany). Sections were mounted on slides, stained with eosin, air dried and coverslipped, and the location of the needle tip was confirmed (Feleder et al, 2007). Only the data from confirmed placement was considered.…”

Section: Methodsmentioning

confidence: 99%

The intracerebroventricular injection of rimonabant inhibits systemic lipopolysaccharide-induced lung inflammation

Johnson

Neumann

Peng

et al. 2015

Journal of Neuroimmunology

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We investigated the role of intracerebroventricular (ICV) injection of rimonabant (500 ng), a CB1 antagonist, on lipopolysaccharide ((LPS) 5mg/kg)-induced pulmonary inflammation in rats in an isolated perfused lung model. There were decreases in pulmonary capillary pressure (Ppc) and increases in the ((Wet-Dry)/Dry lung weight)/(Ppc) ratio in the ICV-vehicle/LPS group at 4 hours. There were decreases in TLR4 pathway markers, such as interleukin receptor-associated kinase-1, IκBα, Raf1 and phospho-SFK(Tyr416) at 30min and at 4hr increases in IL-6, vascular cell adhesion molecule-1 and myeloperoxidase in lung homogenate. Intracerebroventricular rimonabant attenuated these LPS-induced responses, indicating that ICV rimonabant modulates LPS-initiated pulmonary inflammation.

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Preoptic nitric oxide attenuates endotoxic fever in guinea pigs by inhibiting the POA release of norepinephrine

Cited by 21 publications

References 90 publications

Preoptic norepinephrine mediates the febrile response of guinea pigs to lipopolysaccharide

Preoptic norepinephrine mediates the febrile response of guinea pigs to lipopolysaccharide

Cardiovascular responses to cold exposure

The intracerebroventricular injection of rimonabant inhibits systemic lipopolysaccharide-induced lung inflammation

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