Hypothermia Protects against Fulminant Hepatitis in Mice by Reducing Reactive Oxygen Species Production

Objective: Mild hypothermia (32-33°C) shows protective effects in patients with brain damage and cardiac arrest. Although cold-inducible RNA-binding protein (CIRP) contributes to the protective effects of hypothermia through extracellular signal-regulated kinase activation in fibroblasts, the effects of hypothermia in the liver remain unclear. Methods: We analysed the effects of cold temperature on fulminant hepatitis, a potentially fatal disease, using the D-galactosamine (GalN)/lipopolysaccharide (LPS) and concanavalin (con) A-induced hepatitis models in mice. After GalN/LPS administration and anaesthesia, mice in the hypothermia group were kept at 25°C and those in control group were kept at 35°C. After concanavalin A (con A) administration, the mice in the hypothermia group were placed in a chamber with an ambient temperature of 6°C for 1.5 h. Results: Hypothermia attenuated liver injury and prolonged survival. Activation of c-Jun N-terminal kinase and Akt, which are involved in reactive oxygen species (ROS) accumulation, was suppressed by low temperature. Hypothermia significantly decreased oxidized protein levels, and treatment with N-acetyl-L-cysteine, an antioxidant, attenuated GalN/LPS-induced liver injury. In con A-induced hepatitis, CIRP expression was upregulated and Bid expression was downregulated, resulting in decreased apoptosis of hepatocytes in the hypothermia group. Conclusions: These data suggest that hypothermia directly protects hepatocytes from cell death via reduction of ROS production in fulminant hepatitis.

[1]  Abdullah Alshimemeri Therapeutic hypothermia after cardiac arrest. , 2014, Annals of cardiac anaesthesia.

[2]  M. Kudo,et al.  Association of Gankyrin and Stemness Factor Expression in Human Colorectal Cancer , 2013, Digestive Diseases and Sciences.

[3]  Tzu-Ching Wu,et al.  Hypothermia for acute ischaemic stroke , 2013, The Lancet Neurology.

[4]  M. Kudo,et al.  p38α inhibits liver fibrogenesis and consequent hepatocarcinogenesis by curtailing accumulation of reactive oxygen species. , 2013, Cancer research.

[5]  T. Sakurai,et al.  Cold-inducible RNA-binding protein (Cirp) interacts with Dyrk1b/Mirk and promotes proliferation of immature male germ cells in mice , 2012, Proceedings of the National Academy of Sciences.

[6]  Hai-tao Zhang,et al.  Cold-inducible RNA binding protein inhibits H2O2-induced apoptosis in rat cortical neurons , 2012, Brain Research.

[7]  N. Hay,et al.  Akt determines replicative senescence and oxidative or oncogenic premature senescence and sensitizes cells to oxidative apoptosis. , 2008, Cancer cell.

[8]  A. Diestel,et al.  Hypothermia downregulates inflammation but enhances IL-6 secretion by stimulated endothelial cells. , 2008, Cryobiology.

[9]  Gary Hardiman,et al.  Hepatocyte necrosis induced by oxidative stress and IL-1 alpha release mediate carcinogen-induced compensatory proliferation and liver tumorigenesis. , 2008, Cancer cell.

[10]  T. Sakurai,et al.  Cirp protects against tumor necrosis factor-alpha-induced apoptosis via activation of extracellular signal-regulated kinase. , 2006, Biochimica et biophysica acta.

[11]  T. Sakurai,et al.  Low temperature protects mammalian cells from apoptosis initiated by various stimuli in vitro. , 2005, Experimental cell research.

[12]  Michael Karin,et al.  Reactive Oxygen Species Promote TNFα-Induced Death and Sustained JNK Activation by Inhibiting MAP Kinase Phosphatases , 2005, Cell.

[13]  Mauricio Hong,et al.  Update on advanced life support and resuscitation techniques , 2005, Current opinion in cardiology.

[14]  R. Jalan Intracranial Hypertension in Acute Liver Failure: Pathophysiological Basis of Rational Management , 2003, Seminars in liver disease.

[15]  E. Galun,et al.  The role of cytokines in liver failure and regeneration: potential new molecular therapies. , 2002, Biochimica et biophysica acta.

[16]  G. Tiegs,et al.  Cytokine expression in three mouse models of experimental hepatitis. , 2002, Cytokine.

[17]  A. Lentsch,et al.  Mechanisms of hypothermic protection against ischemic liver injury in mice. , 2002, American journal of physiology. Gastrointestinal and liver physiology.

[18]  G. Curfman Hypothermia to protect the brain. , 2002, The New England journal of medicine.

[19]  P. Kochanek,et al.  Therapeutic hypothermia after cardiac arrest. , 2002, The New England journal of medicine.

[20]  M. Hengartner The biochemistry of apoptosis , 2000, Nature.

[21]  Kenzo Sato,et al.  Hepatoprotective action of adenovirus‐transferred HNF‐3γ gene in acute liver injury caused by CCl4 , 1999, FEBS letters.

[22]  K. Kataoka,et al.  Mild hypothermia—a revived countermeasure against ischemic neuronal damages , 1998, Neuroscience Research.

[23]  M. Manns,et al.  Mechanisms of hepatic toxicity. I. TNF-induced liver injury. , 1998, The American journal of physiology.

[24]  M. Manns,et al.  I. TNF-induced liver injury. , 1998, American journal of physiology. Gastrointestinal and liver physiology.

[25]  Xiaodong Wang,et al.  Bid, a Bcl2 Interacting Protein, Mediates Cytochrome c Release from Mitochondria in Response to Activation of Cell Surface Death Receptors , 1998, Cell.

[26]  P. Galle,et al.  Involvement of the CD95 (APO-1/Fas) receptor and ligand in liver damage , 1995, The Journal of experimental medicine.

[27]  A. Wendel,et al.  A T cell-dependent experimental liver injury in mice inducible by concanavalin A. , 1992, The Journal of clinical investigation.