Journal
JOURNAL OF VIROLOGY
Volume 90, Issue 19, Pages 8478-8486Publisher
AMER SOC MICROBIOLOGY
DOI: 10.1128/JVI.00705-16
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Funding
- EU (Project EUVIRNA) [264286]
- EU (Project SILVER) [260644]
- Agence Nationale de Recherche SIDA-Hepatites (ANRS)
- BELSPO (BELVIR grant)
- Wellcome Trust
- European Research Council
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ADP-ribosylation is a posttranslational protein modification in which ADP-ribose is transferred from NAD(+) to specific acceptors to regulate a wide variety of cellular processes. The macro domain is an ancient and highly evolutionarily conserved protein domain widely distributed throughout all kingdoms of life, including viruses. The human TARG1/C6orf130, MacroD1, and MacroD2 proteins can reverse ADP-ribosylation by acting on ADP-ribosylated substrates through the hydrolytic activity of their macro domains. Here, we report that the macro domain from hepatitis E virus (HEV) serves as an ADP-ribose-protein hydrolase for mono-ADP-ribose (MAR) and poly(ADP-ribose) (PAR) chain removal (de-MARylation and de-PARylation, respectively) from mono-and poly(ADP)-ribosylated proteins, respectively. The presence of the HEV helicase in cis dramatically increases the binding of the macro domain to poly(ADP-ribose) and stimulates the de-PARylation activity. Abrogation of the latter dramatically decreases replication of an HEV subgenomic replicon. The de-MARylation activity is present in all three pathogenic positive-sense, single-stranded RNA [(+)ssRNA] virus families which carry a macro domain: Coronaviridae (severe acute respiratory syndrome coronavirus and human coronavirus 229E), Togaviridae (Venezuelan equine encephalitis virus), and Hepeviridae (HEV), indicating that it might be a significant tropism and/or pathogenic determinant. IMPORTANCE Protein ADP-ribosylation is a covalent posttranslational modification regulating cellular protein activities in a dynamic fashion to modulate and coordinate a variety of cellular processes. Three viral families, Coronaviridae, Togaviridae, and Hepeviridae, possess macro domains embedded in their polyproteins. Here, we show that viral macro domains reverse cellular ADP-ribosylation, potentially cutting the signal of a viral infection in the cell. Various poly(ADP-ribose) polymerases which are notorious guardians of cellular integrity are demodified by macro domains from members of these virus families. In the case of hepatitis E virus, the adjacent viral helicase domain dramatically increases the binding of the macro domain to PAR and simulates the demodification activity.
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