Literature DB >> 16877116

Molecular aspects of fever and hyperthermia.

Joachim Roth1, Christoph Rummel, Stephan W Barth, Rüdiger Gerstberger, Thomas Hübschle.   

Abstract

A rise in core temperature during fever usually results from change in the thermocontroller characteristics, resulting in an elevation of the set point of body temperature. Time course and extent of natural fevers are variable, but an upper limit (41 degrees C in humans), at which core temperature is maintained for some time and reduced when the set point of body temperature returns to its normal level, rarely is exceeded. Although any rise in body temperature may result from fever, those rises that are not accompanied by supportive changes in thermoeffector activities are termed hyperthermia.

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Year:  2006        PMID: 16877116     DOI: 10.1016/j.ncl.2006.03.004

Source DB:  PubMed          Journal:  Neurol Clin        ISSN: 0733-8619            Impact factor:   3.806


  12 in total

1.  Heat shock inhibits caspase-1 activity while also preventing its inflammasome-mediated activation by anthrax lethal toxin.

Authors:  Tera C Levin; Katherine E Wickliffe; Stephen H Leppla; Mahtab Moayeri
Journal:  Cell Microbiol       Date:  2008-08-28       Impact factor: 3.715

Review 2.  Fate-Regulating Circuits in Viruses: From Discovery to New Therapy Targets.

Authors:  Anand Pai; Leor S Weinberger
Journal:  Annu Rev Virol       Date:  2017-08-11       Impact factor: 10.431

3.  Febrile response induced by cecal ligation and puncture (CLP) in rats: involvement of prostaglandin E2 and cytokines.

Authors:  Maria José Figueiredo; Denis Melo Soares; Denis de Melo Soares; Juliano Manvailer Martins; Renes de Resende Machado; Carlos Arterio Sorgi; Lucia Helena Faccioli; Miriam Cristina Contin de Melo; Miriam Cristina Contin de Melo; David do Carmo Malvar; Glória E P Souza
Journal:  Med Microbiol Immunol       Date:  2011-12-28       Impact factor: 3.402

4.  Viral-like brain inflammation during development causes increased seizure susceptibility in adult rats.

Authors:  M A Galic; K Riazi; A K Henderson; S Tsutsui; Q J Pittman
Journal:  Neurobiol Dis       Date:  2009-08-04       Impact factor: 5.996

5.  The antipyretic effect of dipyrone is unrelated to inhibition of PGE(2) synthesis in the hypothalamus.

Authors:  David do C Malvar; Denis M Soares; Aline S C Fabrício; Alexandre Kanashiro; Renes R Machado; Maria J Figueiredo; Giles A Rae; Glória E P de Souza
Journal:  Br J Pharmacol       Date:  2011-03       Impact factor: 8.739

6.  Hyperthermia in the febrile range induces HSP72 expression proportional to exposure temperature but not to HSF-1 DNA-binding activity in human lung epithelial A549 cells.

Authors:  Mohan E Tulapurkar; Benedict E Asiegbu; Ishwar S Singh; Jeffrey D Hasday
Journal:  Cell Stress Chaperones       Date:  2009-02-17       Impact factor: 3.667

7.  Immune-to-brain signaling and central prostaglandin E2 synthesis in fasted rats with altered lipopolysaccharide-induced fever.

Authors:  Wataru Inoue; Gokce Somay; Stephen Poole; Giamal N Luheshi
Journal:  Am J Physiol Regul Integr Comp Physiol       Date:  2008-05-14       Impact factor: 3.619

8.  Different Sickness Responses in Adult and Aged Rats Following Lipopolysaccharide Administration.

Authors:  Barbara J Kupferschmid; Barbara Therrien; Pamela J Rowsey
Journal:  Biol Res Nurs       Date:  2018-02-25       Impact factor: 2.522

9.  An endogenous accelerator for viral gene expression confers a fitness advantage.

Authors:  Melissa W Teng; Cynthia Bolovan-Fritts; Roy D Dar; Andrew Womack; Michael L Simpson; Thomas Shenk; Leor S Weinberger
Journal:  Cell       Date:  2012-12-21       Impact factor: 41.582

10.  The Jak/STAT signaling pathway is downregulated at febrile temperatures.

Authors:  Tobias Nespital; Ger J Strous
Journal:  PLoS One       Date:  2012-11-14       Impact factor: 3.240
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