Advanced search
Publication Cover
Emerging Microbes & Infections Volume 3, 2014 - Issue 1
Submit an article Journal homepage
1,653
Views
61
CrossRef citations to date
0
Altmetric
Reviews

Receptors for enterovirus 71

Seiya YamayoshiDivision of Virology, Department of Microbiology and Immunology, Institute of Medical Science, The University of Tokyo, Tokyo 108-8639, Japan
,
Ken FujiiNeurovirology Project, Tokyo Metropolitan Institute of Medical Science, Tokyo 156-8506, Japan
&
Satoshi KoikeNeurovirology Project, Tokyo Metropolitan Institute of Medical Science, Tokyo 156-8506, JapanCorrespondence[email protected]
Pages 1-7 | Received 23 Sep 2015, Accepted 02 Nov 2015, Published online: 25 Jan 2019

  • Oberste MS, Jiang X, Maher K, Nix WA, Jiang B.The complete genome sequences for three simian enteroviruses isolated from captive primates. Arch Virol2008;153: 2117–2122.
  • Oberste MS, Maher K, Pallansch MA.Complete genome sequences for nine simian enteroviruses. J Gen Virol2007;88: 3360–3372.
  • Pallansch M, Roos R.Enteroviruses. polioviruses, coxsackieviruses, echoviruses, and newer enteroviruses.In: Knipe DM, Howley PM, Griffin DE, Lamb RA, Martin MA, Roizman B, Straus SE (ed.) Fields Virology.5th ed.Philadelphia, PA: Lippincott Williams & Wilkins, 2007: 839–893.
  • Ho M, Chen ER, Hsu KH et al.An epidemic of enterovirus 71 infection in Taiwan. Taiwan Enterovirus Epidemic Working Group. N Engl J Med1999;341: 929–935.
  • Schmidt NJ, Lennette EH, Ho HH.An apparently new enterovirus isolated from patients with disease of the central nervous system. J Infect Dis1974;129: 304–309.
  • Chumakov KM, Lavrova IK, Martianova LI, Korolev MB, Bashkirtsev VN, Voroshilova MK.Investigation of physicochemical properties of Bulgarian strain 258 of enterovirus type 71. Brief report. Arch Virol1979;60: 359–362.
  • Chumakov M, Voroshilova M, Shindarov L et al.Enterovirus 71 isolated from cases of epidemic poliomyelitis-like disease in Bulgaria. Arch Virol1979;60: 329–340.
  • Melnick JL.Enterovirus type 71 infections: a varied clinical pattern sometimes mimicking paralytic poliomyelitis. Rev Infect Dis1984;6( Suppl 2): S387–S390.
  • Chan LG, Parashar UD, Lye MS et al.Deaths of children during an outbreak of hand, foot, and mouth disease in Sarawak, Malaysia: clinical and pathological characteristics of the disease. For the Outbreak Study Group. Clin Infect Dis2000;31: 678–683.
  • McMinn P, Lindsay K, Perera D, Chan HM, Chan KP, Cardosa MJ.Phylogenetic analysis of enterovirus 71 strains isolated during linked epidemics in Malaysia, Singapore, and Western Australia. J Virol2001;75: 7732–7738.
  • McMinn P, Stratov I, Nagarajan L, Davis S.Neurological manifestations of enterovirus 71 infection in children during an outbreak of hand, foot, and mouth disease in Western Australia. Clin Infect Dis2001;32: 236–242.
  • Komatsu H, Shimizu Y, Takeuchi Y, Ishiko H, Takada H.Outbreak of severe neurologic involvement associated with Enterovirus 71 infection. Pediatr Neurol1999;20: 17–23.
  • Fujimoto T, Chikahira M, Yoshida S et al.Outbreak of central nervous system disease associated with hand, foot, and mouth disease in Japan during the summer of 2000: detection and molecular epidemiology of enterovirus 71. Microbiol Immunol2002;46: 621–627.
  • Wang JR, Tuan YC, Tsai HP, Yan JJ, Liu CC, Su IJ.Change of major genotype of enterovirus 71 in outbreaks of hand-foot-and-mouth disease in Taiwan between 1998 and 2000. J Clin Microbiol2002;40: 10–15.
  • Ahmad K.Hand, foot, and mouth disease outbreak reported in Singapore. Lancet2000;356: 1338.
  • De W, Changwen K, Wei L et al.A large outbreak of hand, foot, and mouth disease caused by EV71 and CAV16 in Guangdong, China, 2009. Arch Virol2011;156: 945–953.
  • Yip CC, Lau SK, Woo PC, Yuen KY.Human enterovirus 71 epidemics: what’s next? Emerg Health Threats J2013;6: 19780.
  • Qiu J.Enterovirus 71 infection: a new threat to global public health? Lancet Neurol2008;7: 868–869.
  • Tuthill TJ, Groppelli E, Hogle JM, Rowlands DJ.Picornaviruses. Curr Top Microbiol Immunol2010;343: 43–89.
  • Bergelson JM.Receptors.In: Ehrenfeld E, Domingo E, Roos RP (ed.) The Picornaviruses.Washington, DC: ASM Press, 2010: 73–86.
  • Fricks CE, Hogle JM.Cell-induced conformational change in poliovirus: externalization of the amino terminus of VP1 is responsible for liposome binding. J Virol1990;64: 1934–1945.
  • Tuthill TJ, Bubeck D, Rowlands DJ, Hogle JM.Characterization of early steps in the poliovirus infection process: receptor-decorated liposomes induce conversion of the virus to membrane-anchored entry-intermediate particles. J Virol2006;80: 172–180.
  • Danthi P, Tosteson M, Li QH, Chow M.Genome delivery and ion channel properties are altered in VP4 mutants of poliovirus. J Virol2003;77: 5266–5274.
  • Tosteson MT, Wang H, Naumov A, Chow M.Poliovirus binding to its receptor in lipid bilayers results in particle-specific, temperature-sensitive channels. J Gen Virol2004;85: 1581–1589.
  • Levy HC, Bostina M, Filman DJ, Hogle JM.Catching a virus in the act of RNA release: a novel poliovirus uncoating intermediate characterized by cryo-electron microscopy. J Virol2010;84: 4426–4441.
  • Bostina M, Levy H, Filman DJ, Hogle JM.Poliovirus RNA is released from the capsid near a twofold symmetry axis. J Virol2011;85: 776–783.
  • Neumann E, Moser R, Snyers L, Blaas D, Hewat EA.A cellular receptor of human rhinovirus type 2, the very-low-density lipoprotein receptor, binds to two neighboring proteins of the viral capsid. J Virol2003;77: 8504–8511.
  • Hewat EA, Neumann E, Conway JF et al.The cellular receptor to human rhinovirus 2 binds around the 5-fold axis and not in the canyon: a structural view. EMBO J2000;19: 6317–6325.
  • Verdaguer N, Fita I, Reithmayer M, Moser R, Blaas D.X-ray structure of a minor group human rhinovirus bound to a fragment of its cellular receptor protein. Nat Struct Mol Biol2004;11: 429–434.
  • Prchla E, Kuechler E, Blaas D, Fuchs R.Uncoating of human rhinovirus serotype 2 from late endosomes. J Virol1994;68: 3713–3723.
  • Plevka P, Perera R, Cardosa J, Kuhn RJ, Rossmann MG.Crystal structure of human enterovirus 71. Science2012;336: 1274.
  • Wang X, Peng W, Ren J et al.A sensor–adaptor mechanism for enterovirus uncoating from structures of EV71. Nat Struct Mol Biol2012;19: 424–429.
  • Cifuente JO, Lee H, Yoder JD et al.Structures of the procapsid and mature virion of enterovirus 71 strain 1095. J Virol2013;87: 7637–7645.
  • Shingler KL, Yoder JL, Carnegie MS et al.The enterovirus 71 A-particle forms a gateway to allow genome release: a cryoEM study of picornavirus uncoating. PLoS Pathog2013;9: e1003240.
  • Yang B, Chuang H, Yang KD.Sialylated glycans as receptor and inhibitor of enterovirus 71 infection to DLD-1 intestinal cells. Viral J2009;6: 141.
  • Nishimura Y, Shimojima M, Tano Y, Miyamura T, Wakita T, Shimizu H.Human P-selectin glycoprotein ligand-1 is a functional receptor for enterovirus 71. Nat Med2009;15: 794–797.
  • Yamayoshi S, Yamashita Y, Li J et al.Scavenger receptor B2 is a cellular receptor for enterovirus 71. Nat Med2009;15: 798–801.
  • Yang SL, Chou YT, Wu CN, Ho MS.Annexin II binds to capsid protein VP1 of enterovirus 71 and enhances viral infectivity. J Virol2011;85: 11809–11820.
  • Tan CW, Poh CL, Sam IC, Chan YF.Enterovirus 71 uses cell surface heparan sulfate glycosaminoglycan as an attachment receptor. J Virol2013;87: 611–620.
  • Koike S, Taya C, Kurata T et al.Transgenic mice susceptible to poliovirus. Proc Natl Acad Sci USA1991;88: 951–955.
  • Ren RB, Costantini F, Gorgacz EJ, Lee JJ, Racaniello VR.Transgenic mice expressing a human poliovirus receptor: a new model for poliomyelitis. Cell1990;63: 353–362.
  • Ida-Hosonuma M, Iwasaki T, Yoshikawa T et al.The alpha/beta interferon response controls tissue tropism and pathogenicity of poliovirus. J Virol2005;79: 4460–4469.
  • Abe Y, Fujii K, Nagata N et al.The Toll-like receptor 3-mediated antiviral response is important for protection against poliovirus infection in poliovirus receptor transgenic mice. J Virol2012;86: 185–194.
  • Liu CC, Guo MS, Lin FH et al.Purification and characterization of enterovirus 71 viral particles produced from Vero cells grown in a serum-free microcarrier bioreactor system. PloS ONE2011;6: e20005.
  • Chen P, Song Z, Qi Y et al.Molecular determinants of enterovirus 71 viral entry: cleft around GLN-172 on VP1 protein interacts with variable region on scavenge receptor B 2. J Biol Chem2012;287: 6406–6420.
  • Hewat EA, Blaas D.Cryoelectron microscopy analysis of the structural changes associated with human rhinovirus type 14 uncoating. J Virol2004;78: 2935–2942.
  • Hewat EA, Neumann E, Blaas D.The concerted conformational changes during human rhinovirus 2 uncoating. Mol Cell2002;10: 317–326.
  • Garriga D, Pickl-Herk A, Luque D et al.Insights into minor group rhinovirus uncoating: the X-ray structure of the HRV2 empty capsid. PLoS Pathog2012;8: e1002473.
  • Calvo D, Dopazo J, Vega MA.The CD36, CLA-1 (CD36L1), and LIMPII (CD36L2) gene family: cellular distribution, chromosomal location, and genetic evolution. Genomics1995;25: 100–106.
  • Kuronita T, Eskelinen EL, Fujita H, Saftig P, Himeno M, Tanaka Y.A role for the lysosomal membrane protein LGP85 in the biogenesis and maintenance of endosomal and lysosomal morphology. J Cell Sci2002;115: 4117–4131.
  • Blanz J, Groth J, Zachos C, Wehling C, Saftig P, Schwake M.Disease-causing mutations within the lysosomal integral membrane protein type 2 (LIMP-2) reveal the nature of binding to its ligand beta-glucocerebrosidase. Hum Mol Genet2010;19: 563–572.
  • Eskelinen EL, Tanaka Y, Saftig P.At the acidic edge: emerging functions for lysosomal membrane proteins. Trends Cell Biol2003;13: 137–145.
  • Reczek D, Schwake M, Schroder J et al.LIMP-2 is a receptor for lysosomal mannose-6-phosphate-independent targeting of beta-glucocerebrosidase. Cell2007;131: 770–783.
  • Yamayoshi S, Ohka S, Fujii K, Koike S.Functional comparison of SCARB2 and PSGL1 as receptors for enterovirus 71. J Virol2013;87: 3335–3347.
  • Neculai D, Schwake M, Ravichandran M et al.Structure of LIMP-2 provides functional insights with implications for SR-BI and CD36. Nature2013;504: 172–176.
  • Yamayoshi S, Koike S.Identification of a human SCARB2 region that is important for enterovirus 71 binding and infection. J Virol2011;85: 4937–4946.
  • Hussain KM, Leong KL, Ng MM, Chu JJ.The essential role of clathrin-mediated endocytosis in the infectious entry of human enterovirus 71. J Biol Chem2011;286: 309–321.
  • Lin YW, Lin HY, Tsou YL et al.Human SCARB2-mediated entry and endocytosis of EV71. PloS ONE2012;7: e30507.
  • Fujii K, Nagata N, Sato Y, Ong KC, Wong KT, Yamayoshi S et al.Transgenic mouse model for the study of entero virus 71 neuropathogenesis. Proc Natl Acad Sci USA2013;110: 14753–14758.
  • He Y, Ong KC, Gao Z et al.Tonsillar crypt epithelium is an important extra-central nervous system site for viral replication in EV71 encephalomyelitis. Am J Pathol2014;184: 714–720.
  • Lin YW, Yu SL, Shao HY et al.Human SCARB2 transgenic mice as an infectious animal model for enterovirus 71. PloS ONE2013;8: e57591.
  • Yamayoshi S, Iizuka S, Yamashita T et al.Human SCARB2-dependent infection by coxsackievirus A7, A14, and A16 and enterovirus 71. J Virol2012;86: 5686–5696.
  • Sako D, Chang XJ, Barone KM et al.Expression cloning of a functional glycoprotein ligand for P-selectin. Cell1993;75: 1179–1186.
  • Laszik Z, Jansen PJ, Cummings RD, Tedder TF, McEver RP, Moore KL.P-selectin glycoprotein ligand-1 is broadly expressed in cells of myeloid, lymphoid, and dendritic lineage and in some nonhematopoietic cells. Blood1996;88: 3010–3021.
  • Somers WS, Tang J, Shaw GD, Camphausen RT.Insights into the molecular basis of leukocyte tethering and rolling revealed by structures of P- and E-selectin bound to SLe(X) and PSGL-1. Cell2000;103: 467–479.
  • Nishimura Y, Wakita T, Shimizu H.Tyrosine sulfation of the amino terminus of PSGL-1 is critical for enterovirus 71 infection. PLoS Pathog2010;6: e1001174.
  • Nishimura Y, Lee H, Hafenstein S et al.Enterovirus 71 binding to PSGL-1 on leukocytes: VP1-145 acts as a molecular switch to control receptor interaction. PLoS Pathog2013;9: e1003511.
  • Miyamura K, Nishimura Y, Abo M, Wakita T, Shimizu H.Adaptive mutations in the genomes of enterovirus 71 strains following infection of mouse cells expressing human P-selectin glycoprotein ligand-1. J Gen Virol2011;92: 287–291.
  • Lin HY, Yang YT, Yu SL et al.Caveolar endocytosis is required for human PSGL-1-mediated enterovirus 71 infection. J Virol2013;87: 9064–9076.
  • Liu J, Dong W, Quan X, Ma C, Qin C, Zhang L.Transgenic expression of human P-selectin glycoprotein ligand-1 is not sufficient for enterovirus 71 infection in mice. Arch Virol2012;157: 539–543.
  • Hajjar KA, Acharya SS.Annexin II and regulation of cell surface fibrinolysis. Ann NY Acad Sci2000;902: 265–271.
  • Varki NM, Varki A.Diversity in cell surface sialic acid presentations: implications for biology and disease. Lab Invest2007;87: 851–857.

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.