Abstract
Crimean-Congo Hemorrhagic Fever virus (CCHFV; family Nairoviridae) is an extremely pathogenic member of the Bunyavirales order. Previous studies have shown that the N-terminal domain of the CCHFV polymerase (L) contains an ovarian tumor-type protease (OTU) domain with the capability to remove both ubiquitin and ISG15 molecules from proteins. The approximately 200 amino acids-long OTU domain, if ectopically expressed, can interfere with both the induction of antiviral type I interferons (IFN) as well as the IFN-stimulated signaling. A OTU protease mutant (C40A), by contrast, was inactive in that respect. However, the effect of the OTU protease activity in the context of the full-length L protein (approximately 4000 amino acids) is only poorly characterized, and recombinant CCHFV with the C40A mutation could not be rescued. Here, we employed transcriptionally active virus-like particles (tc-VLPs) to investigate the interaction between the L-embedded OTU protease and the IFN system. Our data show a cis requirement of the OTU protease for optimal CCHFV polymerase activity in human HuH-7 cells. The L-embedded OTU did not influence IFN signaling, the sensitivity to IFN, or IFN induction. Moreover, the attenuation of OTU C40A-mutated L could not be relieved by inactivating the IFN response, but after overexpression of conjugation-competent ISG15 the polymerase activity recovered to wild-type levels. Consequently, ISG15 was used to produce OTU-deficient tc-VLPs, a potential vaccine candidate. Our data thus indicate that in the context of full-length L the OTU domain is important for the regulation of CCHFV polymerase by ISG15.
Highlights
Crimean-Congo hemorrhagic fever virus (CCHFV) is a tick-transmitted member of the order Bunyavirales that is present in endemic spots all over Africa, Asia, as well as South and East Europe [1, 2]
Using a minireplicon system consisting of transiently expressed CCHFV L, N and a reporter minigenome, it was found that the ovarian tumor-type protease (OTU) protease-negative L mutant C40A exhibited the same RNA-dependent RNA polymerase (RdRP) activity as wt L [34]
It was not possible to generate a recombinant CCHFV bearing the C40A mutation in L, and data from transcriptionally active virus-like particles (tc-VLPs)-infected cells led Scholte et al to conclude that C40A L impairs particle production and/or infectivity [30]
Summary
Crimean-Congo hemorrhagic fever virus (CCHFV) is a tick-transmitted member of the order Bunyavirales (family Nairoviridae, genus Orthonairovirus) that is present in endemic spots all over Africa, Asia, as well as South and East Europe [1, 2]. While CCHFV is able to infect a wide range of domestic and wild animals including bats [3], humans and primates are the only known host species that develop severe disease [1]. Symptoms of human CCHFV infection range from a mild febrile illness to severe hemorrhagic disease, with case fatality ratios between 5% and 30% [1]. The lipid envelope displays spikes of the glycoproteins (GPs) Gn and Gc. Inside, the virions contain three different nucleocapsids (ribonucleoprotein particles; RNPs), each consisting of a negative-stranded RNA segment (vRNA) encapsidated by the nucleocapsid protein N and associated with the RNA-dependent RNA polymerase (RdRP), L. With an overall size of approximately 19.000 nt altogether, the three-segmented genome is among the largest within the group of negative-strand RNA viruses. The L segment encodes the L RdRP, the M segment a polyprotein encompassing Gn, Gc, some secreted proteins and a non-structural protein (NSm), and the S segment encodes the N protein and a non-structural protein (NSs) [1, 5, 6]
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