Abstract

We are studying a group of related parvoviruses which differ in host range as a result of a small number of differences in their capsid proteins. Canine parvovirus (CPV) emerged in 1978 as a variant of feline panleukopenia virus (FPV), and then underwent further host adaptation. FPV and CPV capsids bind the transferrin receptors (TfR) of their host cells, and while both can bind the feline TfR and use that for infection, CPV can also bind and use the canine TfR. The canine host range of CPV was due to a small number of differences in the capsid, and then the virus acquired further adaptive capsid changes. The TfRs bind the virus through the receptor apical domain, and CPV-specific binding involved a new glycosylation site. The TfR directs the virus into the correct endosomal pathway and prepares the capsid for cell infection. Public health significance: These studies address the fundamental aspects of how viruses use cellular processes to infect cells, and how evolution creates new host ranges and allows the emergence of new epidemic strains. The 2 aims address different aspects of virus-cell recognition leading to infection and controlling host ranges.
Aim 1 : Determine how the interactions between viral capsids and the feline and canine TfRs control cell infection and determine the viral host ranges. We would define the processes by which feline and canine TfRs and mutants of those receptors bind wild type and mutant viruses and mediate infection. Virus would be selected on mutant forms of the TfR and the adapted viruses examined for changes in sequence, and the structural changes in the capsids modeled. The flexibility of the capsids and the structural consequences of the TfR-capsid binding would be examined by assaying for protease sensitivity of the capsid, receptor, and of capsid-TfR complexes. Entry of viruses would be compared in various host cells, and the effects of varying the interactions on the uptake and endosomal transport of the capsids would be examined. The role of glycosylations of the canine TfR would be examined by changing that site and by testing receptors for virus binding and infection.
Aim 2 : To define how changes specifically in endosomal uptake and trafficking lead the virus into the correct pathway for infection and regulate viral host ranges. Here we would specifically examine the effects of receptor trafficking on infection and host range by examining the effects of mutant TfRs with altered TM or cytoplasmic sequences. Viruses lacking phospholipase A2 activity or VP1, or with changes around the fivefold axis, would be compared for their endosomal localization and release. We would seek to complement endosomal escape mutants in trans by adding adenovirus capsids, competent wild type parvovirus, or transferrin-PEI conjugates to the cells along with the parvoviruses. ? ? ?

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of Allergy and Infectious Diseases (NIAID)
Type
Research Project (R01)
Project #
2R01AI028385-15A1
Application #
7196911
Study Section
Virology - A Study Section (VIRA)
Program Officer
Park, Eun-Chung
Project Start
1990-04-01
Project End
2011-11-30
Budget Start
2007-01-02
Budget End
2007-11-30
Support Year
15
Fiscal Year
2007
Total Cost
$338,979
Indirect Cost

  Institution

Name
Cornell University
Department
Veterinary Sciences
Type
Schools of Veterinary Medicine
DUNS #
872612445
City
Ithaca
State
NY
Country
United States
Zip Code
14850

  Publications

Lyi, Sangbom Michael; Tan, Min Jie Alvin; Parrish, Colin R (2014) Parvovirus particles and movement in the cellular cytoplasm and effects of the cytoskeleton. Virology 456-457:342-52
Löfling, Jonas; Lyi, Sangbom Michael; Parrish, Colin R et al. (2013) Canine and feline parvoviruses preferentially recognize the non-human cell surface sialic acid N-glycolylneuraminic acid. Virology 440:89-96
Cureton, David K; Harbison, Carole E; Cocucci, Emanuele et al. (2012) Limited transferrin receptor clustering allows rapid diffusion of canine parvovirus into clathrin endocytic structures. J Virol 86:5330-40
Flanagan, M L; Parrish, C R; Cobey, S et al. (2012) Anticipating the species jump: surveillance for emerging viral threats. Zoonoses Public Health 59:155-63
Stucker, Karla M; Pagan, Israel; Cifuente, Javier O et al. (2012) The role of evolutionary intermediates in the host adaptation of canine parvovirus. J Virol 86:1514-21
Allison, Andrew B; Harbison, Carole E; Pagan, Israel et al. (2012) Role of multiple hosts in the cross-species transmission and emergence of a pandemic parvovirus. J Virol 86:865-72
Kaelber, Jason T; Demogines, Ann; Harbison, Carole E et al. (2012) Evolutionary reconstructions of the transferrin receptor of Caniforms supports canine parvovirus being a re-emerged and not a novel pathogen in dogs. PLoS Pathog 8:e1002666
Goodman, Laura B; Lyi, Sangbom M; Johnson, Natalie C et al. (2010) Binding site on the transferrin receptor for the parvovirus capsid and effects of altered affinity on cell uptake and infection. J Virol 84:4969-78
Hoelzer, Karin; Parrish, Colin R (2010) The emergence of parvoviruses of carnivores. Vet Res 41:39
Harbison, Carole E; Lyi, Sangbom Michael; Weichert, Wendy S et al. (2009) Early steps in cell infection by parvoviruses: host-specific differences in cell receptor binding but similar endosomal trafficking. J Virol 83:10504-14

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