Literature DB >> 11264378

Canine and feline parvoviruses can use human or feline transferrin receptors to bind, enter, and infect cells.

J S Parker1, W J Murphy, D Wang, S J O'Brien, C R Parrish.   

Abstract

Canine parvovirus (CPV) enters and infects cells by a dynamin-dependent, clathrin-mediated endocytic pathway, and viral capsids colocalize with transferrin in perinuclear vesicles of cells shortly after entry (J. S. L. Parker and C. R. Parrish, J. Virol. 74:1919-1930, 2000). Here we report that CPV and feline panleukopenia virus (FPV), a closely related parvovirus, bind to the human and feline transferrin receptors (TfRs) and use these receptors to enter and infect cells. Capsids did not detectably bind or enter quail QT35 cells or a Chinese hamster ovary (CHO) cell-derived cell line that lacks any TfR (TRVb cells). However, capsids bound and were endocytosed into QT35 cells and CHO-derived TRVb-1 cells that expressed the human TfR. TRVb-1 cells or TRVb cells transiently expressing the feline TfR were susceptible to infection by CPV and FPV, but the parental TRVb cells were not. We screened a panel of feline-mouse hybrid cells for susceptibility to FPV infection and found that only those cells that possessed feline chromosome C2 were susceptible. The feline TfR gene (TRFC) also mapped to feline chromosome C2. These data indicate that cell susceptibility for these viruses is determined by the TfR.

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Year:  2001        PMID: 11264378      PMCID: PMC114880          DOI: 10.1128/JVI.75.8.3896-3902.2001

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


  34 in total

1.  Cytoplasmic trafficking of the canine parvovirus capsid and its role in infection and nuclear transport.

Authors:  M Vihinen-Ranta; W Yuan; C R Parrish
Journal:  J Virol       Date:  2000-05       Impact factor: 5.103

Review 2.  Structure and function of transferrin receptors and their relationship to cell growth.

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Journal:  Biochem Soc Symp       Date:  1986

3.  Crystal structure of the ectodomain of human transferrin receptor.

Authors:  C M Lawrence; S Ray; M Babyonyshev; R Galluser; D W Borhani; S C Harrison
Journal:  Science       Date:  1999-10-22       Impact factor: 47.728

4.  The receptor recycling pathway contains two distinct populations of early endosomes with different sorting functions.

Authors:  D R Sheff; E A Daro; M Hull; I Mellman
Journal:  J Cell Biol       Date:  1999-04-05       Impact factor: 10.539

5.  A radiation hybrid map of the cat genome: implications for comparative mapping.

Authors:  W J Murphy; S Sun; Z Chen; N Yuhki; D Hirschmann; M Menotti-Raymond; S J O'Brien
Journal:  Genome Res       Date:  2000-05       Impact factor: 9.043

6.  Genetic mapping in mammals: chromosome map of domestic cat.

Authors:  S J O'Brien; W G Nash
Journal:  Science       Date:  1982-04-16       Impact factor: 47.728

7.  Receptor-mediated endocytosis of human transferrin and its cell surface receptor.

Authors:  J W Larrick; C Enns; A Raubitschek; H Weintraub
Journal:  J Cell Physiol       Date:  1985-08       Impact factor: 6.384

8.  Human cell surface glycoprotein related to cell proliferation is the receptor for transferrin.

Authors:  I S Trowbridge; M B Omary
Journal:  Proc Natl Acad Sci U S A       Date:  1981-05       Impact factor: 11.205

9.  Rapid endocytosis of the transferrin receptor in the absence of bound transferrin.

Authors:  C Watts
Journal:  J Cell Biol       Date:  1985-02       Impact factor: 10.539

10.  Transferrin receptor polarity and recycling accuracy in "tight" and "leaky" strains of Madin-Darby canine kidney cells.

Authors:  S D Fuller; K Simons
Journal:  J Cell Biol       Date:  1986-11       Impact factor: 10.539
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Authors:  Sylvie Lachmann; Jean Rommeleare; Jürg P F Nüesch
Journal:  J Virol       Date:  2003-07       Impact factor: 5.103

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Authors:  Maija Vihinen-Ranta; Sanna Suikkanen; Colin R Parrish
Journal:  J Virol       Date:  2004-07       Impact factor: 5.103

4.  Parvovirus infection of cells by using variants of the feline transferrin receptor altering clathrin-mediated endocytosis, membrane domain localization, and capsid-binding domains.

Authors:  Karsten Hueffer; Laura M Palermo; Colin R Parrish
Journal:  J Virol       Date:  2004-06       Impact factor: 5.103

5.  Immunogenicity of an intranasally administered modified live canine parvovirus type 2b vaccine in pups with maternally derived antibodies.

Authors:  Vito Martella; Alessandra Cavalli; Nicola Decaro; Gabriella Elia; Costantina Desario; Marco Campolo; Giancarlo Bozzo; Elvira Tarsitano; Canio Buonavoglia
Journal:  Clin Diagn Lab Immunol       Date:  2005-10

6.  Evolution of CPV-2 and implication for antigenic/genetic characterization.

Authors:  Vito Martella; Nicola Decaro; Canio Buonavoglia
Journal:  Virus Genes       Date:  2006-08       Impact factor: 2.332

7.  Detecting small changes and additional peptides in the canine parvovirus capsid structure.

Authors:  Christian D S Nelson; Eveliina Minkkinen; Magnus Bergkvist; Karin Hoelzer; Mathew Fisher; Brian Bothner; Colin R Parrish
Journal:  J Virol       Date:  2008-08-13       Impact factor: 5.103

8.  Exploitation of microtubule cytoskeleton and dynein during parvoviral traffic toward the nucleus.

Authors:  Sanna Suikkanen; Tuula Aaltonen; Marjukka Nevalainen; Outi Välilehto; Laura Lindholm; Matti Vuento; Maija Vihinen-Ranta
Journal:  J Virol       Date:  2003-10       Impact factor: 5.103

9.  Virulent variants emerging in mice infected with the apathogenic prototype strain of the parvovirus minute virus of mice exhibit a capsid with low avidity for a primary receptor.

Authors:  Mari-Paz Rubio; Alberto López-Bueno; José M Almendral
Journal:  J Virol       Date:  2005-09       Impact factor: 5.103

10.  Canine and feline parvoviruses preferentially recognize the non-human cell surface sialic acid N-glycolylneuraminic acid.

Authors:  Jonas Löfling; Sangbom Michael Lyi; Colin R Parrish; Ajit Varki
Journal:  Virology       Date:  2013-03-14       Impact factor: 3.616
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