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Journal of Virology, May 1999, p. 4350-4359, Vol. 73, No. 5
Department of Animal Biology, University of
Pennsylvania Veterinary School, Philadelphia, Pennsylvania
191041; Department of Neuroscience,
University of Pittsburgh, Pittsburgh, Pennsylvania
152602; and Department of Molecular
Biology, Princeton University, Princeton, New Jersey
085443
Received 9 November 1998/Accepted 11 February 1999
The pseudorabies virus (PRV) gE gene encodes a multifunctional
membrane protein found in infected cell membranes and in the virion
envelope. Deletion of the gE gene results in marked attenuation of the
virus in almost every animal species tested that is permissive for PRV.
A common inference is that gE mutants are less virulent because they
have reduced ability to spread from cell to cell; e.g., gE mutants
infect fewer cells and, accordingly, animals live longer. In this
report, we demonstrate that this inference does not hold in a rat
experimental model for virus invasion of the brain. We find that
animals infected with gE mutants live longer despite extensive
retrograde, transneuronal spread of virus in the rat brain. In this
model of brain infection, virus is injected into the stomach
musculature and virions spread to the brain in long axons of brain stem
neurons that give rise to the tenth cranial nerve (the vagus). The
infection then spreads from neuron to neuron in well-defined, and
physically separated, areas of the brain involved in autonomic
regulation of the viscera. We examined the progression of infection of
five PRV strains in this circuitry: the wild-type PRV-Becker strain,
the attenuated PRV-Bartha vaccine strain, and three gE mutants isogenic
with the PRV-Becker strain. By 60 to 67 h after infection, all
PRV-Becker-infected animals were dead. Analysis of Becker-infected rats
killed prior to virus-induced death demonstrated that the virus had
established an infection only in the primary vagal neurons
connected directly to the stomach and synaptically linked neurons in
the immediate vicinity of the caudal brain stem. There was little
spread to other neurons in the vagus circuitry. In contrast, rats
infected with PRV-Bartha or PRV-Becker gE mutants survived to
at least 96 h and exhibited few overt signs of disease. Despite
this long survival and the lack of symptoms, brains of animals
sacrificed at this time revealed extensive transsynaptic
infection not only of the brain stem but also of areas of the forebrain
synaptically linked to neurons in the brain stem. This finding provides
evidence that the gE protein plays a role in promoting symptoms
of infection and death in animals that is independent of
neuron-to-neuron spread during brain infection. When this early
virulence function is not active, animals live longer, resulting in
more extensive spread of virus in the brain.
0022-538X/99/$04.00+0
Copyright © 1999, American Society for Microbiology. All rights reserved.
Retrograde, Transneuronal Spread of Pseudorabies Virus in Defined
Neuronal Circuitry of the Rat Brain Is Facilitated by gE Mutations
That Reduce Virulence
*
Corresponding author. Mailing address: 314 Schultz
Laboratory, Department of Molecular Biology, Princeton University,
Princeton, NJ 08544. Phone: (609) 258-2415. Fax: (609) 258-1035. E-mail: Lenquist{at}molbio.princeton.edu.
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