Literature DB >> 20484511

Feline lectin activity is critical for the cellular entry of feline infectious peritonitis virus.

Andrew D Regan1, David G Ousterout, Gary R Whittaker.   

Abstract

Feline infectious peritonitis is a lethal disease of felids caused by systemic infection with a feline coronavirus. Here, we report identification and analysis of the feline homologue to the human lectin DC-SIGN and show that it is a coreceptor for virulent strains of serotype 1 and serotype 2 feline coronaviruses.

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Year:  2010        PMID: 20484511      PMCID: PMC2897608          DOI: 10.1128/JVI.00964-10

Source DB:  PubMed          Journal:  J Virol        ISSN: 0022-538X            Impact factor:   5.103


  29 in total

1.  Generation of feline dendritic cells derived from peripheral blood monocytes for in vivo use.

Authors:  Giulia Freer; Donatella Matteucci; Paola Mazzetti; Leonia Bozzacco; Mauro Bendinelli
Journal:  Clin Diagn Lab Immunol       Date:  2005-10

2.  Macrophages archive HIV-1 virions for dissemination in trans.

Authors:  Natalia Sharova; Catherine Swingler; Mark Sharkey; Mario Stevenson
Journal:  EMBO J       Date:  2005-05-26       Impact factor: 11.598

3.  Prediction of transmembrane alpha-helices in prokaryotic membrane proteins: the dense alignment surface method.

Authors:  M Cserzö; E Wallin; I Simon; G von Heijne; A Elofsson
Journal:  Protein Eng       Date:  1997-06

4.  Murine coronavirus with an extended host range uses heparan sulfate as an entry receptor.

Authors:  Cornelis A M de Haan; Zhen Li; Eddie te Lintelo; Berend Jan Bosch; Bert Jan Haijema; Peter J M Rottier
Journal:  J Virol       Date:  2005-11       Impact factor: 5.103

Review 5.  Dendritic-cell interactions with HIV: infection and viral dissemination.

Authors:  Li Wu; Vineet N KewalRamani
Journal:  Nat Rev Immunol       Date:  2006-11       Impact factor: 53.106

Review 6.  Sialic acids as receptor determinants for coronaviruses.

Authors:  Christel Schwegmann-Wessels; Georg Herrler
Journal:  Glycoconj J       Date:  2006-02       Impact factor: 2.916

7.  Human coronavirus 229E can use CD209L (L-SIGN) to enter cells.

Authors:  Scott A Jeffers; Erin M Hemmila; Kathryn V Holmes
Journal:  Adv Exp Med Biol       Date:  2006       Impact factor: 2.622

8.  Ultrastructure of SARS-CoV, FIPV, and MHV revealed by electron cryomicroscopy.

Authors:  Benjamin W Neuman; Brian D Adair; Craig Yoshioka; Joel D Quispe; Ronald A Milligan; Mark Yeager; Michael J Buchmeier
Journal:  Adv Exp Med Biol       Date:  2006       Impact factor: 2.622

9.  CD209L (L-SIGN) is a receptor for severe acute respiratory syndrome coronavirus.

Authors:  Scott A Jeffers; Sonia M Tusell; Laura Gillim-Ross; Erin M Hemmila; Jenna E Achenbach; Gregory J Babcock; William D Thomas; Larissa B Thackray; Mark D Young; Robert J Mason; Donna M Ambrosino; David E Wentworth; James C Demartini; Kathryn V Holmes
Journal:  Proc Natl Acad Sci U S A       Date:  2004-10-20       Impact factor: 11.205

10.  Differences in virus receptor for type I and type II feline infectious peritonitis virus.

Authors:  T Hohdatsu; Y Izumiya; Y Yokoyama; K Kida; H Koyama
Journal:  Arch Virol       Date:  1998       Impact factor: 2.574
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  21 in total

1.  Feline and canine coronaviruses: common genetic and pathobiological features.

Authors:  Sophie Le Poder
Journal:  Adv Virol       Date:  2011-07-31

2.  Characterization of a recombinant canine coronavirus with a distinct receptor-binding (S1) domain.

Authors:  Andrew D Regan; Jean K Millet; Long Ping V Tse; Zach Chillag; Vera D Rinaldi; Beth N Licitra; Edward J Dubovi; Christopher D Town; Gary R Whittaker
Journal:  Virology       Date:  2012-05-18       Impact factor: 3.616

Review 3.  Mechanisms of coronavirus cell entry mediated by the viral spike protein.

Authors:  Sandrine Belouzard; Jean K Millet; Beth N Licitra; Gary R Whittaker
Journal:  Viruses       Date:  2012-06-20       Impact factor: 5.048

Review 4.  Canine enteric coronaviruses: emerging viral pathogens with distinct recombinant spike proteins.

Authors:  Beth N Licitra; Gerald E Duhamel; Gary R Whittaker
Journal:  Viruses       Date:  2014-08-22       Impact factor: 5.048

5.  Polymorphisms in the feline TNFA and CD209 genes are associated with the outcome of feline coronavirus infection.

Authors:  Ying-Ting Wang; Li-En Hsieh; Yu-Rou Dai; Ling-Ling Chueh
Journal:  Vet Res       Date:  2014-12-16       Impact factor: 3.683

6.  An eight-year epidemiologic study based on baculovirus-expressed type-specific spike proteins for the differentiation of type I and II feline coronavirus infections.

Authors:  Ying-Ting Wang; Ling-Ling Chueh; Cho-Hua Wan
Journal:  BMC Vet Res       Date:  2014-08-15       Impact factor: 2.741

7.  Intriguing interplay between feline infectious peritonitis virus and its receptors during entry in primary feline monocytes.

Authors:  Evelien Van Hamme; Lowiese Desmarets; Hannah L Dewerchin; Hans J Nauwynck
Journal:  Virus Res       Date:  2011-05-12       Impact factor: 3.303

8.  Identification and genotyping of feline infectious peritonitis-associated single nucleotide polymorphisms in the feline interferon-γ gene.

Authors:  Li-En Hsieh; Ling-Ling Chueh
Journal:  Vet Res       Date:  2014-05-21       Impact factor: 3.683

9.  Experimental feline enteric coronavirus infection reveals an aberrant infection pattern and shedding of mutants with impaired infectivity in enterocyte cultures.

Authors:  Lowiese M B Desmarets; Ben L Vermeulen; Sebastiaan Theuns; Nádia Conceição-Neto; Mark Zeller; Inge D M Roukaerts; Delphine D Acar; Dominique A J Olyslaegers; Marc Van Ranst; Jelle Matthijnssens; Hans J Nauwynck
Journal:  Sci Rep       Date:  2016-01-29       Impact factor: 4.379

Review 10.  An update on feline infectious peritonitis: virology and immunopathogenesis.

Authors:  Niels C Pedersen
Journal:  Vet J       Date:  2014-05-02       Impact factor: 2.688
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