Attenuation of rabies virulence: Takeover by the cytoplasmic domain of its envelope protein

Christophe Préhaud; Nicolas Wolff; Elouan Terrien; Mireille Lafage; Françoise Mégret; Nicolas Babault; Florence Cordier; Gene S. Tan; Elodie Maitrepierre; Pauline Ménager; Damien Chopy; Sylviane Hoos; Patrick England; Muriel Delepierre; Matthias J. Schnell; Henri Buc; Monique Lafon

doi:10.1126/scisignal.2000510

Attenuation of rabies virulence: Takeover by the cytoplasmic domain of its envelope protein

Christophe Préhaud
, Nicolas Wolff
, Elouan Terrien
, Mireille Lafage
, Françoise Mégret
, Nicolas Babault
, Florence Cordier
, Gene S. Tan
, Elodie Maitrepierre
, Pauline Ménager
, Damien Chopy
, Sylviane Hoos
, Patrick England
, Muriel Delepierre
, Matthias J. Schnell
, Henri Buc
, Monique Lafon

Research output: Contribution to journal › Article › peer-review

112 Scopus citations

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.

Original language	English
Pages (from-to)	ra5
Journal	Science Signaling
Volume	3
Issue number	105
DOIs	https://doi.org/10.1126/scisignal.2000510
State	Published - 19 Jan 2010
Externally published	Yes

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10.1126/scisignal.2000510

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Préhaud, C., Wolff, N., Terrien, E., Lafage, M., Mégret, F., Babault, N., Cordier, F., Tan, G. S., Maitrepierre, E., Ménager, P., Chopy, D., Hoos, S., England, P., Delepierre, M., Schnell, M. J., Buc, H., & Lafon, M. (2010). Attenuation of rabies virulence: Takeover by the cytoplasmic domain of its envelope protein. Science Signaling, 3(105), ra5. https://doi.org/10.1126/scisignal.2000510

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title = "Attenuation of rabies virulence: Takeover by the cytoplasmic domain of its envelope protein",

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.",

author = "Christophe Pr{\'e}haud and Nicolas Wolff and Elouan Terrien and Mireille Lafage and Fran{\c c}oise M{\'e}gret and Nicolas Babault and Florence Cordier and Tan, \{Gene S.\} and Elodie Maitrepierre and Pauline M{\'e}nager and Damien Chopy and Sylviane Hoos and Patrick England and Muriel Delepierre and Schnell, \{Matthias J.\} and Henri Buc and Monique Lafon",

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Préhaud, C, Wolff, N, Terrien, E, Lafage, M, Mégret, F, Babault, N, Cordier, F, Tan, GS, Maitrepierre, E, Ménager, P, Chopy, D, Hoos, S, England, P, Delepierre, M, Schnell, MJ, Buc, H & Lafon, M 2010, 'Attenuation of rabies virulence: Takeover by the cytoplasmic domain of its envelope protein', Science Signaling, vol. 3, no. 105, pp. ra5. https://doi.org/10.1126/scisignal.2000510

TY - JOUR

T1 - Attenuation of rabies virulence

T2 - Takeover by the cytoplasmic domain of its envelope protein

AU - Préhaud, Christophe

AU - Wolff, Nicolas

AU - Terrien, Elouan

AU - Lafage, Mireille

AU - Mégret, Françoise

AU - Babault, Nicolas

AU - Cordier, Florence

AU - Tan, Gene S.

AU - Maitrepierre, Elodie

AU - Ménager, Pauline

AU - Chopy, Damien

AU - Hoos, Sylviane

AU - England, Patrick

AU - Delepierre, Muriel

AU - Schnell, Matthias J.

AU - Buc, Henri

AU - Lafon, Monique

PY - 2010/1/19

Y1 - 2010/1/19

N2 - 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.

AB - 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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VL - 3

SP - ra5

JO - Science Signaling

JF - Science Signaling

IS - 105

ER -

Attenuation of rabies virulence: Takeover by the cytoplasmic domain of its envelope protein

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