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Ebola virus glycoprotein toxicity is mediated by a dynamin-dependent protein-trafficking pathway.

Journal of virology (2004-12-15)
Nancy J Sullivan, Mary Peterson, Zhi-yong Yang, Wing-pui Kong, Heinricus Duckers, Elizabeth Nabel, Gary J Nabel
RÉSUMÉ

Ebola virus infection causes a highly lethal hemorrhagic fever syndrome associated with profound immunosuppression through its ability to induce widespread inflammation and cellular damage. Though GP, the viral envelope glycoprotein, mediates many of these effects, the molecular events that underlie Ebola virus cytopathicity are poorly understood. Here, we define a cellular mechanism responsible for Ebola virus GP cytotoxicity. GP selectively decreased the expression of cell surface molecules that are essential for cell adhesion and immune function. GP dramatically reduced levels of alphaVbeta3 without affecting the levels of alpha2beta1 or cadherin, leading to cell detachment and death. This effect was inhibited in vitro and in vivo by brefeldin A and was dependent on dynamin, the GTPase. GP also decreased cell surface expression of major histocompatibility complex class I molecules, which alters recognition by immune cells, and this effect was also dependent on the mucin domain previously implicated in GP cytotoxicity. By altering the trafficking of select cellular proteins, Ebola virus GP inflicts cell damage and may facilitate immune escape by the virus.

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Peroxydase from horseradish, Type II, essentially salt-free, lyophilized powder, 150-250 units/mg solid (using pyrogallol)
Sigma-Aldrich
Anticorps anti-intégrine αV β3, clone LM609, clone LM609, Chemicon®, from mouse