Advanced search
Publication Cover
Future Virology Volume 14, 2019 - Issue 1
Submit an article Journal homepage
57
Views
0
CrossRef citations to date
0
Altmetric
Special Report

Cellular Prion protein-mediated Protection Against Influenza a Virus Infection

Junji Chida1 Division of Molecular Neurobiology The Institute for Enzyme Research (KOSOKEN) Tokushima University 3-18-15 KuramotoTokushima770-8503Japan
&
Suehiro Sakaguchi1 Division of Molecular Neurobiology The Institute for Enzyme Research (KOSOKEN) Tokushima University 3-18-15 KuramotoTokushima770-8503JapanCorrespondence[email protected]
Pages 31-37 | Received 22 Aug 2018, Accepted 29 Nov 2018, Published online: 18 Dec 2018

References

  • Oesch B , WestawayD, WalchliMet al. A cellular gene encodes scrapie PrP 27-30 protein . Cell40 ( 4 ), 735 – 746 ( 1985 ).
  • Prusiner SB . Prions . Proc. Natl Acad. Sci. USA95 ( 23 ), 13363 – 13383 ( 1998 ).
  • Bueler H , AguzziA, SailerAet al. Mice devoid of PrP are resistant to scrapie . Cell73 ( 7 ), 1339 – 1347 ( 1993 ).
  • Prusiner SB , GrothD, SerbanAet al. Ablation of the prion protein (PrP) gene in mice prevents scrapie and facilitates production of anti-PrP antibodies . Proc. Natl Acad. Sci. USA90 ( 22 ), 10608 – 10612 ( 1993 ).
  • Manson JC , ClarkeAR, McBridePA, McConnellI, HopeJ . PrP gene dosage determines the timing but not the final intensity or distribution of lesions in scrapie pathology . Neurodegeneration3 ( 4 ), 331 – 340 ( 1994 ).
  • Sakaguchi S , KatamineS, ShigematsuKet al. Accumulation of proteinase K-resistant prion protein (PrP) is restricted by the expression level of normal PrP in mice inoculated with a mouse-adapted strain of the Creutzfeldt-Jakob disease agent . J. Virol.69 ( 12 ), 7586 – 7592 ( 1995 ).
  • Weise J , CromeO, SandauR, Schulz-SchaefferW, BahrM, ZerrI . Upregulation of cellular prion protein (PrPc) after focal cerebral ischemia and influence of lesion severity . Neurosci. Lett.372 ( 1–2 ), 146 – 150 ( 2004 ).
  • McLennan NF , BrennanPM, McNeillAet al. Prion protein accumulation and neuroprotection in hypoxic brain damage . Am. J. Pathol.165 ( 1 ), 227 – 235 ( 2004 ).
  • Sakurai-Yamashita Y , SakaguchiS, YoshikawaDet al. Female-specific neuroprotection against transient brain ischemia observed in mice devoid of prion protein is abolished by ectopic expression of prion protein-like protein . Neuroscience136 ( 1 ), 281 – 287 ( 2005 ).
  • Mitteregger G , VoskoM, KrebsBet al. The role of the octarepeat region in neuroprotective function of the cellular prion protein . Brain Pathol.17 ( 2 ), 174 – 183 ( 2007 ).
  • Brown DR , QinK, HermsJWet al. The cellular prion protein binds copper in vivo . Nature390 ( 6661 ), 684 – 687 ( 1997 ).
  • Hornshaw MP , McDermottJR, CandyJM . Copper binding to the N-terminal tandem repeat regions of mammalian and avian prion protein . Biochem. Biophys. Res. Commun.207 ( 2 ), 621 – 629 ( 1995 ).
  • Kramer ML , KratzinHD, SchmidtBet al. Prion protein binds copper within the physiological concentration range . J. Biol. Chem.276 ( 20 ), 16711 – 16719 ( 2001 ).
  • Brown DR , NicholasRS, CanevariL . Lack of prion protein expression results in a neuronal phenotype sensitive to stress . J. Neurosci. Res67 ( 2 ), 211 – 224 ( 2002 ).
  • Brown DR , BesingerA . Prion protein expression and superoxide dismutase activity . Biochem. J.334 ( Pt 2 ), 423 – 429 ( 1998 ).
  • Collinge J , WhittingtonMA, SidleKCet al. Prion protein is necessary for normal synaptic function . Nature370 ( 6487 ), 295 – 297 ( 1994 ).
  • Lledo PM , TremblayP, DeArmondSJ, PrusinerSB, NicollRA . Mice deficient for prion protein exhibit normal neuronal excitability and synaptic transmission in the hippocampus . Proc. Natl Acad. Sci. USA93 ( 6 ), 2403 – 2407 ( 1996 ).
  • Sakaguchi S , KatamineS, NishidaNet al. Loss of cerebellar Purkinje cells in aged mice homozygous for a disrupted PrP gene . Nature380 ( 6574 ), 528 – 531 ( 1996 ).
  • Harris DA , FallsDL, JohnsonFA, FischbachGD . A prion-like protein from chicken brain copurifies with an acetylcholine receptor-inducing activity . Proc. Natl Acad. Sci. USA88 ( 17 ), 7664 – 7668 ( 1991 ).
  • Tobler I , GausSE, DeboerTet al. Altered circadian activity rhythms and sleep in mice devoid of prion protein . Nature380 ( 6575 ), 639 – 642 ( 1996 ).
  • Zhang B , CowdenD, ZhangFet al. Prion protein protects against renal ischemia/reperfusion Injury . PLoS ONE10 ( 9 ), e0136923 ( 2015 ).
  • Zanetti F , CarpiA, MenaboRet al. The cellular prion protein counteracts cardiac oxidative stress . Cardiovasc. Res.104 ( 1 ), 93 – 102 ( 2014 ).
  • Wang M , ZhaoD, YangYet al. The cellular prion protein negatively regulates phagocytosis and cytokine expression in murine bone marrow-derived macrophages . PLoS ONE9 ( 7 ), e102785 ( 2014 ).
  • Durig J , GieseA, Schulz-SchaefferWet al. Differential constitutive and activation-dependent expression of prion protein in human peripheral blood leucocytes . Br. J. Haematol.108 ( 3 ), 488 – 495 ( 2000 ).
  • Haddon DJ , HughesMR, AntignanoF, WestawayD, CashmanNR, McNagnyKM . Prion protein expression and release by mast cells after activation . J. Infect. Dis.200 ( 5 ), 827 – 831 ( 2009 ).
  • Chida J , HaraH, YanoMet al. Prion protein protects mice from lethal infection with influenza A viruses . PLoS Pathog.14 ( 5 ), e1007049 ( 2018 ).
  • Fiore AE , ShayDK, BroderKet al. Prevention and control of influenza: recommendations of the advisory committee on immunization practices (ACIP), 2008 . MMWR57 ( RR-7 ), 1 – 60 ( 2008 ).
  • Dawood FS , IulianoAD, ReedCet al. Estimated global mortality associated with the first 12 months of 2009 pandemic influenza A H1N1 virus circulation: a modelling study . Lancet. Infect. Dis12 ( 9 ), 687 – 695 ( 2012 ).
  • Johnson NP , MuellerJ . Updating the accounts: global mortality of the 1918–1920 “Spanish” influenza pandemic . Bull. Hist. Med.76 ( 1 ), 105 – 115 ( 2002 ).
  • Akaike T , AndoM, OdaTet al. Dependence on O2- generation by xanthine oxidase of pathogenesis of influenza virus infection in mice . J. Clin. Invest.85 ( 3 ), 739 – 745 ( 1990 ).
  • Oda T , AkaikeT, HamamotoT, SuzukiF, HiranoT, MaedaH . Oxygen radicals in influenza-induced pathogenesis and treatment with pyran polymer-conjugated SOD . Science244 ( 4907 ), 974 – 976 ( 1989 ).
  • Vlahos R , SelemidisS . NADPH oxidases as novel pharmacologic targets against influenza A virus infection . Mol. Pharmacol.86 ( 6 ), 747 – 759 ( 2014 ).
  • Vlahos R , StambasJ, BozinovskiS, BroughtonBR, DrummondGR, SelemidisS . Inhibition of Nox2 oxidase activity ameliorates influenza A virus-induced lung inflammation . PLoS Pathog.7 ( 2 ), e1001271 ( 2011 ).
  • Imai Y , KubaK, NeelyGGet al. Identification of oxidative stress and Toll-like receptor 4 signaling as a key pathway of acute lung injury . Cell133 ( 2 ), 235 – 249 ( 2008 ).
  • Schwarz KB . Oxidative stress during viral infection: a review . Free Radic. Biol. Med.21 ( 5 ), 641 – 649 ( 1996 ).
  • Peterhans E . Oxidants and antioxidants in viral diseases: disease mechanisms and metabolic regulation . J. Nutr.127 ( Suppl. 5 ), S962 – S965 ( 1997 ).
  • Camini FC , da Silva CaetanoCC, AlmeidaLT, de Brito MagalhaesCL . Implications of oxidative stress on viral pathogenesis . Arch. Virol.162 ( 4 ), 907 – 917 ( 2017 ).
  • Li Z , XuX, LengXet al. Roles of reactive oxygen species in cell signaling pathways and immune responses to viral infections . Arch. Virol.162 ( 3 ), 603 – 610 ( 2017 ).
  • Wang S , LeTQ, KuriharaNet al. Influenza virus-cytokine-protease cycle in the pathogenesis of vascular hyperpermeability in severe influenza . J. Infect. Dis.202 ( 7 ), 991 – 1001 ( 2010 ).
  • Pyo CW , ShinN, JungKI, ChoiJH, ChoiSY . Alteration of copper-zinc superoxide dismutase 1 expression by influenza A virus is correlated with virus replication . Biochem. Biophys. Res. Commun.450 ( 1 ), 711 – 716 ( 2014 ).
  • Zelko IN , MarianiTJ, FolzRJ . Superoxide dismutase multigene family: a comparison of the CuZn-SOD (SOD1), Mn-SOD (SOD2), and EC-SOD (SOD3) gene structures, evolution, and expression . Free Radic. Biol. Med.33 ( 3 ), 337 – 349 ( 2002 ).
  • Lin X , WangR, ZouWet al. The influenza virus H5N1 infection can induce ROS production for viral replication and host cell death in A549 cells modulated by human Cu/Zn superoxide dismutase (SOD1) overexpression . Viruses8 ( 1 ), ( 2016 ).
  • Hurt AC , HolienJK, ParkerM, KelsoA, BarrIG . Zanamivir-resistant influenza viruses with a novel neuraminidase mutation . J. Virol.83 ( 20 ), 10366 – 10373 ( 2009 ).
  • McKimm-Breschkin JL , SahasrabudheA, BlickTJet al. Mutations in a conserved residue in the influenza virus neuraminidase active site decreases sensitivity to Neu5Ac2en-derived inhibitors . J. Virol.72 ( 3 ), 2456 – 2462 ( 1998 ).
  • Mishin VP , HaydenFG, GubarevaLV . Susceptibilities of antiviral-resistant influenza viruses to novel neuraminidase inhibitors . Antimicrob. Agents Chemother.49 ( 11 ), 4515 – 4520 ( 2005 ).
  • Yamada Y , LimmonGV, ZhengDet al. Major shifts in the spatio-temporal distribution of lung antioxidant enzymes during influenza pneumonia . PLoS ONE7 ( 2 ), e31494 ( 2012 ).
  • Yoshikawa D , YamaguchiN, IshibashiDet al. Dominant-negative effects of the N-terminal half of prion protein on neurotoxicity of prion protein-like protein/doppel in mice . J. Biol. Chem.283 ( 35 ), 24202 – 24211 ( 2008 ).
  • Jang H , BoltzD, Sturm-RamirezKet al. Highly pathogenic H5N1 influenza virus can enter the central nervous system and induce neuroinflammation and neurodegeneration . Proc. Natl Acad. Sci. USA106 ( 33 ), 14063 – 14068 ( 2009 ).
  • Tantcheva LP , StoevaES, GalabovAS, BraykovaAA, SavovVM, MilevaMM . Effect of vitamin E and vitamin C combination on experimental influenza virus infection . Methods Find Exp. Clin. Pharmacol.25 ( 4 ), 259 – 264 ( 2003 ).
  • Zanata SM , LopesMH, MercadanteAFet al. Stress-inducible protein 1 is a cell surface ligand for cellular prion that triggers neuroprotection . EMBO J.21 ( 13 ), 3307 – 3316 ( 2002 ).
  • Chiarini LB , FreitasAR, ZanataSM, BrentaniRR, MartinsVR, LindenR . Cellular prion protein transduces neuroprotective signals . EMBO J.21 ( 13 ), 3317 – 3326 ( 2002 ).
  • Sakudo A , LeeDC, LiSet al. PrP cooperates with STI1 to regulate SOD activity in PrP-deficient neuronal cell line . Biochem. Biophys. Res. Commun.328 ( 1 ), 14 – 19 ( 2005 ).

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.