Recent advances have provided evidence that prostaglandin E2 mediates the generation of fever in response to interleukin-1 or lipopolysaccharide and have reinforced the similarities of signaling downstream of these two pyrogens. (+info)
Cytokines as endogenous pyrogens.
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Cytokines are pleiotropic molecules mediating several pathologic processes. Long before the discovery of cytokines as immune system growth factors or as bone marrow stimulants, investigators learned a great deal about cytokines when they studied them as the endogenous mediators of fever. The terms "granulocytic" or "endogenous pyrogen" were used to describe substances with the biologic property of fever induction. Today, we recognize that pyrogenicity is a fundamental biologic property of several cytokines and hence the clinically recognizeable property of fever links host perturbations during disease with fundamental perturbations in cell biology. In this review, the discoveries made on endogenous pyrogens are revisited, with insights into the importance of the earlier work to the present-day understanding of cytokines in health and in disease. (+info)
Exposure to febrile temperature upregulates expression of pyrogenic cytokines in endotoxin-challenged mice.
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Fever is a phylogenetically ancient response that is associated with improved survival in acute infections. In endothermic animals, fever is induced by a set of pyrogenic cytokines [tumor necrosis factor-alpha (TNF-alpha), interleukin (IL)-1, and IL-6] that are also essential for survival in acute infections. We studied the influence of core temperature on cytokine expression using an anesthetized mouse model in which core temperature was adjusted by immersion in water baths. We showed that raising core temperature from basal (36.5-37.5 degrees C) to febrile (39.5-40 degrees C) levels increased peak plasma TNF-alpha and IL-6 levels by 4.1- and 2. 7-fold, respectively, and changed the kinetics of IL-1beta expression in response to lipopolysaccharide challenge. TNF-alpha levels were increased predominantly in liver, IL-1beta levels were higher in lung, and IL-6 levels were widely increased in multiple organs in the warmer mice. This demonstrates that the thermal component of fever may directly contribute to shaping the host response by regulating the timing, magnitude, and tissue distribution of cytokine generation during the acute-phase response. (+info)
Use of multiplex PCR to detect classical and newly described pyrogenic toxin genes in staphylococcal isolates.
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Staphylococcus aureus may contain one or more genes that encode a variety of immunomodulatory pyrogenic toxins (PTs), including the staphylococcal enterotoxins and toxic shock syndrome toxin (TSST). The PTs interact with several cellular targets to produce disease, such as food poisoning and toxic shock syndrome. At present, nine serologically distinct enterotoxins and one immunoreactive form of TSST have been identified and characterized. As isolates of S. aureus are further assessed, it is anticipated that this number will increase. To facilitate screening, a multiplex PCR was designed to simultaneously determine which of these 10 currently known PT genes an individual S. aureus isolate possesses. We show here, using S. aureus isolates with characterized PT phenotypes, that this novel PCR technique reliably detects each of the known PTs in a single reaction. (+info)
Invasive and noninvasive group A streptococcal isolates with different speA alleles in The Netherlands: genetic relatedness and production of pyrogenic exotoxins A and B.
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Streptococcal pyrogenic exotoxin A (SPE-A) and SPE-B have been implicated in the pathogenesis of severe group A streptococcal (GAS) disease. We studied 31 invasive GAS strains including 18 isolates from patients with toxic shock syndrome and 22 noninvasive strains isolated in The Netherlands between 1994 and 1998. These strains were associated with the different allelic variants of the gene encoding SPE-A. We selected endemic strains with speA-positive M and T serotypes: speA2-associated M1T1 and M22-60T12 strains, speA3-associated M3T3 strains, and speA4-associated M6T6 strains. Since speA1-positive isolates were not frequently encountered, we included speA1 strains of different serotypes. The GAS strains were compared genotypically by pulsed-field gel electrophoresis and phenotypically by the in vitro production of SPE-A and SPE-B. All strains within one M and T type appeared to be of clonal origin. Most strains produced SPE-A and SPE-B, but only a minority of the speA4-positive isolates did so. Among our isolates, speA1- and speA3-positive strains produced significantly more SPE-A than speA2- and speA4-carrying strains, while SPE-B production was most pronounced among speA1- and speA2-containing strains. There was a marked degree of variability in the amounts of exotoxins produced in vitro by strains that shared the same genetic profile. We conclude that the differences in the in vitro production of SPE-A and SPE-B between our selected strains with identical M and T types were not related to either genetic heterogeneity or the clinical course of GAS disease in the patient from whom they were isolated. (+info)
Preclinical evaluation of prototype products.
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Preclinical evaluation of medical devices (prototype products) offers the opportunity to investigate and study the intended use of device materials. Preclinical evaluation programs are designed to determine the efficacy, safety, and biocompatibility of biomaterials, prostheses, and medical devices. The purpose of safety testing is to determine if a material presents potential harm to the human; it evaluates the interaction of the material with the in vivo environment and determines the effect of the host on the implant. Preclinical evaluation is the determination of the ability of the prototype product to perform with appropriate host response in a specific application, considered from the perspective of human clinical use. Therefore, preclinical data should include materials science and engineering, biology, biochemistry, medicine, host reactions and their evaluation, the testing of biomaterials, and the degradation of materials in a biological environment. (+info)
Staphylococcal enterotoxin A acts through nitric oxide synthase mechanisms in human peripheral blood mononuclear cells to stimulate synthesis of pyrogenic cytokines.
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The pyrogenic response to supernatant fluids obtained from human peripheral blood mononuclear cells (PBMC) stimulated with staphylococcal enterotoxin A (SEA) was characteristic of a response to an endogenous pyrogen in that it was brief and monophasic and was destroyed by heating supernatant fluids at 70 degrees C for 30 min. The febrile responses were in parallel with the levels of interleukin-1 (IL-1), tumor necrosis factor (TNF), interferon-gamma (IFN-gamma), IL-2, and IL-6 in supernatant fluids obtained from PBMC treated with SEA. Both the pyrogenicity and the levels of IL-1, TNF, IFN-gamma, IL-2, and IL-6 in supernatant fluids started to rise at 6 to 18 h and reached their peak levels at 24 to 96 h after SEA incubation. Both the fever and the increased levels of IL-1, TNF, IFN-gamma, IL-2, and IL-6 in supernatant fluids obtained from the SEA-stimulated PBMC were decreased by incubating SEA-PBMC with anisomycin (a protein synthesis inhibitor), aminoguanidine (an inhibitor of inducible nitric oxide synthase [NOS]), or dexamethasone (an inhibitor of NOS). The febrile response to supernatant fluids obtained from the SEA-stimulated PBMC was attenuated by adding either anti-IL-1beta, anti-TNF-alpha, or anti-IFN-gamma monoclonal antibody (MAb) to supernatant fluids. The antipyretic effects exerted by anti-IL-1beta MAb were greater than those exerted by anti-TNF-alpha or anti-IFN-gamma MAb. The data suggest that SEA acts through the NOS mechanisms in PBMC to stimulate synthesis of pyrogenic cytokines (in particular, the IL-1beta). (+info)
Central effect of taurine and its analogues on fever caused by intravenous leukocytic pyrogen in the rabbit.
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1. Taurine infused I.C.V. after I.V. injection of leukocytic pyrogen (LP) inhibited the initial rise in body temperature and prolonged fever when infusion was stopped. 2. Similar infusion of taurine also inhibited the hypertermic effect of I.C.V. PGE2 (0.5 microgram) but did not cause prolonged hyperthermia. 3. I.C.V. administration of the taurine analogues hypotaurine and beta-alanine, compounds which have been shown previously to compete with taurine for facilitated transport in C.N.S. tissue, also inhibited the initial increase in body temperature and prolonged LP fever. 4. These results suggest that taurine prolongs LP fever by preferentially occupying a carrier system normally required for termination of the effects of endogenous pyrogens or related central mediators of fever. There was no evidence that taurine prolongs fever by blocking inactivation of central PGE2, a substance proposed previously to be a central mediator of fever. (+info)