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Attenuation of Rabies Virulence: Takeover by the Cytoplasmic Domain of Its Envelope Protein

Overview
Journal Sci Signal
Specialties Cell Biology
Physiology
Science
Date 2010 Jan 21
PMID 20086240
Citations 53
Authors
Christophe Prehaud
Nicolas Wolff
Elouan Terrien
Mireille Lafage
Francoise Megret
Nicolas Babault
Florence Cordier
Gene S Tan
Elodie Maitrepierre
Pauline Menager
Damien Chopy
Sylviane Hoos
Patrick England
Muriel Delepierre
Matthias J Schnell
Henri Buc
Monique Lafon
Affiliations
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Abstract

The capacity of a rabies virus to promote neuronal survival (a signature of virulence) or death (a marker of attenuation) depends on the cellular partners recruited by the PDZ-binding site (PDZ-BS) of its envelope glycoprotein (G). Neuronal survival requires the selective association of the PDZ-BS of G with the PDZ domains of two closely related serine-threonine kinases, MAST1 and MAST2. Here, we found that a single amino acid change in the PDZ-BS triggered the apoptotic death of infected neurons and enabled G to interact with additional PDZ partners, in particular the tyrosine phosphatase PTPN4. Knockdown of PTPN4 abrogated virus-mediated apoptosis. Thus, we propose that attenuation of rabies virus requires expansion of the set of host PDZ proteins with which G interacts, which interferes with the finely tuned homeostasis required for survival of the infected neuron.

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