An in vitro system to study trans-neuronal spread of pseudorabies virus infection

The neuronal spread of infection of alpha herpesviruses is controlled by unknown mechanisms. In the natural host, primary infection always leads to invasion of the peripheral nervous system, but rarely results in extensive invasion of the central nervous system. After reactivation of latent infectio...

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Published in	Veterinary microbiology Vol. 113; no. 3; pp. 193 - 197
Main Authors	Ch’ng, T.H., Enquist, L.W.
Format	Journal Article Conference Proceeding
Language	English
Published	Amsterdam Elsevier B.V 31.03.2006 Elsevier Science
Subjects	Animals Aujeszky disease Biological and medical sciences cell culture Cell Culture Techniques - methods Cell Culture Techniques - veterinary Cell–cell period central nervous system Compartmented chambers cultured cells disease course epithelium Fundamental and applied biological sciences. Psychology Herpesvirus 1, Suid - metabolism Herpesvirus 1, Suid - pathogenicity Herpesvirus 1, Suid - physiology in vitro studies infection latent period microbial colonization Microbiology Microscopy, Confocal - veterinary Miscellaneous neurons Neurons - ultrastructure Neurons - virology peripheral nervous system Pseudorabies Pseudorabies - pathology Pseudorabies - virology Pseudorabies virus Rat PNS neurons Rats Suid alphaherpesvirus 1 Suid herpesvirus 1 swine viral fusion proteins virion Virion - ultrastructure Virology Virus Cultivation - methods Virus Cultivation - veterinary Virus Replication Rat PNS neurons Cell–cell period Pseudorabies Compartmented chambers Microbiology Rat Herpesviridae Alphaherpesvirinae Rodentia Infection Virus Aujeszky virus Vertebrata Aujeszky disease Mammalia Neuron Viral disease Cell-cell period Veterinary
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Abstract	The neuronal spread of infection of alpha herpesviruses is controlled by unknown mechanisms. In the natural host, primary infection always leads to invasion of the peripheral nervous system, but rarely results in extensive invasion of the central nervous system. After reactivation of latent infection in the peripheral nervous system, virions are produced and shed from epithelial surfaces, but rarely invade the central nervous system. We have been studying two aspects of the general problem. First, using GFP and mRFP fusion proteins, we have used video confocal microscopy to assess mechanisms that influence spread of pseudorabies (PRV) virion components within axons. Second, and the subject of this report, is the development of a new in vitro cell culture system that enables the study of trans-neuronal spread of infection from neurons to non-neuronal cells similar to what happens after reactivation and spread to epithelial surfaces. We have developed a tissue culture system involving tri-chamber Teflon rings that enables facile analysis of trans-neuronal spread. The system duplicates all the known in vivo correlates of trans-neuronal spread and provides the opportunity to do both quantitative and qualitative assessment of spread of PRV infection from infected neurons to non-neuronal cells.
AbstractList	The neuronal spread of infection of alpha herpesviruses is controlled by unknown mechanisms. In the natural host, primary infection always leads to invasion of the peripheral nervous system, but rarely results in extensive invasion of the central nervous system. After reactivation of latent infection in the peripheral nervous system, virions are produced and shed from epithelial surfaces, but rarely invade the central nervous system. We have been studying two aspects of the general problem. First, using GFP and mRFP fusion proteins, we have used video confocal microscopy to assess mechanisms that influence spread of pseudorabies (PRV) virion components within axons. Second, and the subject of this report, is the development of a new in vitro cell culture system that enables the study of trans-neuronal spread of infection from neurons to non-neuronal cells similar to what happens after reactivation and spread to epithelial surfaces. We have developed a tissue culture system involving tri-chamber Teflon rings that enables facile analysis of trans-neuronal spread. The system duplicates all the known in vivo correlates of trans-neuronal spread and provides the opportunity to do both quantitative and qualitative assessment of spread of PRV infection from infected neurons to non-neuronal cells. The neuronal spread of infection of alpha herpesviruses is controlled by unknown mechanisms. In the natural host, primary infection always leads to invasion of the peripheral nervous system, but rarely results in extensive invasion of the central nervous system. After reactivation of latent infection in the peripheral nervous system, virions are produced and shed from epithelial surfaces, but rarely invade the central nervous system. We have been studying two aspects of the general problem. First, using GFP and mRFP fusion proteins, we have used video confocal microscopy to assess mechanisms that influence spread of pseudorabies (PRV) virion components within axons. Second, and the subject of this report, is the development of a new in vitro cell culture system that enables the study of trans-neuronal spread of infection from neurons to non-neuronal cells similar to what happens after reactivation and spread to epithelial surfaces. We have developed a tissue culture system involving tri-chamber Teflon rings that enables facile analysis of trans-neuronal spread. The system duplicates all the known in vivo correlates of trans-neuronal spread and provides the opportunity to do both quantitative and qualitative assessment of spread of PRV infection from infected neurons to non-neuronal cells.The neuronal spread of infection of alpha herpesviruses is controlled by unknown mechanisms. In the natural host, primary infection always leads to invasion of the peripheral nervous system, but rarely results in extensive invasion of the central nervous system. After reactivation of latent infection in the peripheral nervous system, virions are produced and shed from epithelial surfaces, but rarely invade the central nervous system. We have been studying two aspects of the general problem. First, using GFP and mRFP fusion proteins, we have used video confocal microscopy to assess mechanisms that influence spread of pseudorabies (PRV) virion components within axons. Second, and the subject of this report, is the development of a new in vitro cell culture system that enables the study of trans-neuronal spread of infection from neurons to non-neuronal cells similar to what happens after reactivation and spread to epithelial surfaces. We have developed a tissue culture system involving tri-chamber Teflon rings that enables facile analysis of trans-neuronal spread. The system duplicates all the known in vivo correlates of trans-neuronal spread and provides the opportunity to do both quantitative and qualitative assessment of spread of PRV infection from infected neurons to non-neuronal cells.
Author	Ch’ng, T.H. Enquist, L.W.
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Keywords	Rat PNS neurons Cell–cell period Pseudorabies Compartmented chambers Microbiology Rat Herpesviridae Alphaherpesvirinae Rodentia Infection Virus Aujeszky virus Vertebrata Aujeszky disease Mammalia Neuron Viral disease Cell-cell period Veterinary
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Snippet	The neuronal spread of infection of alpha herpesviruses is controlled by unknown mechanisms. In the natural host, primary infection always leads to invasion of...
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SubjectTerms	Animals Aujeszky disease Biological and medical sciences cell culture Cell Culture Techniques - methods Cell Culture Techniques - veterinary Cell–cell period central nervous system Compartmented chambers cultured cells disease course epithelium Fundamental and applied biological sciences. Psychology Herpesvirus 1, Suid - metabolism Herpesvirus 1, Suid - pathogenicity Herpesvirus 1, Suid - physiology in vitro studies infection latent period microbial colonization Microbiology Microscopy, Confocal - veterinary Miscellaneous neurons Neurons - ultrastructure Neurons - virology peripheral nervous system Pseudorabies Pseudorabies - pathology Pseudorabies - virology Pseudorabies virus Rat PNS neurons Rats Suid alphaherpesvirus 1 Suid herpesvirus 1 swine viral fusion proteins virion Virion - ultrastructure Virology Virus Cultivation - methods Virus Cultivation - veterinary Virus Replication
Title	An in vitro system to study trans-neuronal spread of pseudorabies virus infection
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