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Query: UMLS:C0020672 (
hypothermia
)
17,327
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Systemic inflammation is accompanied by changes in body temperature, either fever or
hypothermia
. Over the past decade, the rat and mouse have become the predominant animal models, and new species-specific tools (recombinant antibodies and other proteins) and genetic manipulations have been applied to study fever and
hypothermia
. Remarkable progress has been achieved. It has been established that the same inflammatory agent can induce either fever or
hypothermia
, depending on several factors. It has also been established that experimental fevers are generally polyphasic, and that different mechanisms underlie different febrile phases. Signaling mechanisms of the most common pyrogen used, bacterial lipopolysaccharide (LPS), have been found to involve the Toll-like receptor 4. The roles of cytokines (such as interleukins-1beta and 6 and tumor necrosis factor-alpha) have been further detailed, and new early mediators (e.g., complement factor 5a and platelet-activating factor) have been proposed. Our understanding of how peripheral inflammatory messengers cross the blood-brain barrier (BBB) has changed. The view that the organum vasculosum of the lamina terminalis is the major port of entry for pyrogenic cytokines has lost its dominant position. The vagal theory has emerged and then fallen. Consensus has been reached that the BBB is not a divider preventing signal transduction, but rather the transducer itself. In the endothelial and perivascular cells of the BBB, upstream signaling molecules (e.g., pro-inflammatory cytokines) are switched to a downstream mediator, prostaglandin (PG) E2. An indispensable role of PGE2 in the febrile response to LPS has been demonstrated in studies with targeted disruption of genes encoding either PGE2-synthesizing enzymes or PGE2 receptors. The PGE2-synthesizing enzymes include numerous phospholipases (PL) A2, cyclooxygenases (COX)-1 and 2, and several newly discovered terminal PGE synthases (PGES). It has been realized that the "physiological," low-scale production of PGE2 and the accelerated synthesis of PGE2 in inflammation are catalyzed by different sets of these enzymes. The "inflammatory" set includes several isoforms of PLA2 and inducible isoforms of COX (COX-2) and microsomal (m) PGES (mPGES-1). The PGE2 receptors are multiple; one of them,
EP3
is likely to be a primary "fever receptor." The effector pathways of fever start from
EP3
-bearing preoptic neurons. These neurons have been found to project to the raphe pallidus, where premotor sympathetic neurons driving thermogenesis in the brown fat and skin vaso-constriction are located. The rapid progress in our understanding of how thermoeffectors are controlled has revealed the inadequacy of set point-based definitions of thermoregulatory responses. New definitions (offered in this review) are based on the idea of balance of active and passive processes and use the term balance point. Inflammatory signaling and thermoeffector pathways involved in fever and
hypothermia
are modulated by neuropeptides and peptide hormones. Roles for several "new" peptides (e.g., leptin and orexins) have been proposed. Roles for several "old" peptides (e.g., arginine vasopressin, angiotensin II, and cholecystokinin) have been detailed or revised. New pharmacological tools to treat fevers (i.e., selective inhibitors of COX-2) have been rapidly introduced into clinical practice, but have not become magic bullets and appeared to have severe side effects. Several new targets for antipyretic therapy, including mPGES-1, have been identified.
...
PMID:Fever and hypothermia in systemic inflammation: recent discoveries and revisions. 1597 Apr 87
After defining hyperthermia and fever, this article describes the complete chain of events leading to the genesis of fever, starting with the lipopolysaccharide-induced formation of endogenous pyrogens (cytokines), their interactions with relevant targets in the brain, the induction of enzymes responsible for the formation of prostaglandin E2, the activation of descending neuronal pathways via the
EP3
receptor, and the stimulation of thermogenesis via this pathway to support the febrile shift of the thermoregulatory set point. This article also summarizes an alternative hypothesis to account for a rapid induction of the early phase of lipopolysaccharide-induced fever before the release of larger amounts of cytokines into the bloodstream. Other topics discussed include malignant
hypothermia
, drug-induced
hypothermia
, and the heat stroke syndrome.
...
PMID:Molecular aspects of fever and hyperthermia. 1687 16
When living organisms become sick as a result of a bacterial infection, a suite of brain-mediated responses occur, including fever, anorexia and sleepiness. Systemic administration of lipopolysaccharide (LPS), a common constituent of bacterial cell walls, increases body temperature and non-rapid eye movement (NREM) sleep in animals and induces the production of pro-inflammatory prostaglandins (PGs). PGE2 is the principal mediator of fever, and both PGE2 and PGD2 regulate sleep-wake behavior. The extent to which PGE2 and PGD2 are involved in the effect of LPS on NREM sleep remains to be clarified. Therefore, we examined LPS-induced changes in body temperature and NREM sleep in mice with nervous system-specific knockouts (KO) for the PGE2 receptors type
EP3
or EP4, in mice with total body KO of microsomal PGE synthase-1 or the PGD2 receptor type DP, and in mice treated with the cyclooxygenase (COX) inhibitor meloxicam. We observed that LPS-induced NREM sleep was slightly attenuated in mice lacking EP4 receptors in the nervous system, but was not affected in any of the other KO mice or in mice pretreated with the COX inhibitor. These results suggest that the effect of LPS on NREM sleep is partially dependent on PGs and is likely mediated mainly by other pro-inflammatory substances. In addition, our data show that the main effect of LPS on body temperature is
hypothermia
in the absence of nervous system
EP3
receptors or in the presence of a COX inhibitor.
...
PMID:The roles of prostaglandin E2 and D2 in lipopolysaccharide-mediated changes in sleep. 2553 85
Prostaglandin E2 (PGE2) is an eicosanoid derived from cyclooxygenase, an enzyme responsible for the cyclisation and oxygenation of arachidonic acid. In response to bacterial infection, PGE2 binds to
EP3
receptors on a population of GABAergic neurons in the pre-optic area. Activation of the
EP3
receptor decreases the intracellular cyclic adenosine monophosphate (cAMP) concentrations of these neurons, and the resulting dis-inhibition activates spinal motor outputs responsible for shivering thermogenesis, tachycardia, and brown adipose tissue activation. These involuntary responses increase core body temperature to varying degrees depending on the magnitude of infection; an immune response which is crucial for the survival of the host. However, evidence in animal and human models, primarily through the use of cyclooxygenase inhibitors (which block the production of PGE2), suggests that PGE2 may also be an important molecule for the defence of core temperature against body cooling and cold stress (in the absence of fever). In this paper, evidence within human and animal models is discussed which supports the hypothesis that the eicosanoid PGE2 has a role in maintaining human core temperature during environmental cooling. Given that over-the-counter PGE2 inhibiting drugs [i.e. Non-Steroidal Anti Inflammatory Drugs (NSAIDS)] are frequently used worldwide, it is possible that the use of such medication during environmental cooling could impair one's ability to thermoregulate. Support for such findings could have major implications in the pathology of
hypothermia
, thus, we suggest that future researchers investigate this specific hypothesis in vivo, using healthy human models. Suggestions for the implementation of such experiments are provided in the present work.
...
PMID:Is prostaglandin E2 (PGE2) involved in the thermogenic response to environmental cooling in healthy humans? 2625 11
