Roles of the Different Isoforms of the Pseudorabies Virus Protein Kinase pUS3 in Nuclear Egress.

Protein kinases homologous to the US3 gene product (pUS3) of herpes simplex virus (HSV) are conserved throughout the alphaherpesviruses but are absent from betaherpesviruses and gammaherpesviruses. pUS3 homologs are multifunctional and are involved in many processes, including modification of the cytoskeleton, inhibition of apoptosis, and immune evasion. pUS3 also plays a role in efficient nuclear egress of alphaherpesvirus nucleocapsids.

Integrity of the Linker of Nucleoskeleton and Cytoskeleton Is Required for Efficient Herpesvirus Nuclear Egress.

Herpesvirus capsids assemble in the nucleus, while final virion maturation proceeds in the cytoplasm. This requires that newly formed nucleocapsids cross the nuclear envelope (NE), which occurs by budding at the inner nuclear membrane (INM), release of the primary enveloped virion into the perinuclear space (PNS), and subsequent rapid fusion with the outer nuclear membrane (ONM). During this process, the NE remains intact, even at late stages of infection.

Out of the Reservoir: Phenotypic and Genotypic Characterization of a Novel Cowpox Virus Isolated from a Common Vole.

Unlabelled: The incidence of human cowpox virus (CPXV) infections has increased significantly in recent years. Serological surveys have suggested wild rodents as the main CPXV reservoir. We characterized a CPXV isolated during a large-scale screening from a feral common vole.

Herpesvirus nuclear egress: Pseudorabies Virus can simultaneously induce nuclear envelope breakdown and exit the nucleus via the envelopment-deenvelopment-pathway.

Herpesvirus replication takes place in the nucleus and in the cytosol. After entering the cell, nucleocapsids are transported to nuclear pores where viral DNA is released into the nucleus. After gene expression and DNA replication new nucleocapsids are assembled which have to exit the nucleus for virion formation in the cytosol.

Functional characterization of nuclear trafficking signals in pseudorabies virus pUL31.

Unlabelled: The herpesviral nuclear egress complex (NEC), consisting of pUL31 and pUL34 homologs, mediates efficient translocation of newly synthesized capsids from the nucleus to the cytosol. The tail-anchored membrane protein pUL34 is autonomously targeted to the nuclear envelope, while pUL31 is recruited to the inner nuclear membrane (INM) by interaction with pUL34. A nuclear localization signal (NLS) in several pUL31 homologs suggests importin-mediated translocation of the protein.

Different regions of the newcastle disease virus fusion protein modulate pathogenicity.

Newcastle disease virus (NDV), also designated as Avian paramyxovirus type 1 (APMV-1), is the causative agent of a notifiable disease of poultry but it exhibits different pathogenicity dependent on the virus strain. The molecular basis for this variability is not fully understood. The efficiency of activation of the fusion protein (F) is determined by presence or absence of a polybasic amino acid sequence at an internal proteolytic cleavage site which is a major determinant of NDV virulence.

Deletion mutants of Schmallenberg virus are avirulent and protect from virus challenge.

Unlabelled: Since its emergence, Schmallenberg virus (SBV), a novel insect-transmitted orthobunyavirus which predominantly infects ruminants, has caused a large epidemic in European livestock. Newly developed inactivated vaccines are available, but highly efficacious and safe live vaccines are still not available. Here, the properties of novel recombinant SBV mutants lacking the nonstructural protein NSs (rSBVΔNSs) or NSm (rSBVΔNSm) or both of these proteins (rSBVΔNSs/ΔNSm) were tested in vitro and in vivo in type I interferon receptor knockout mice (IFNAR(-/-)) and in a vaccination/challenge trial in cattle.

Identification of structural proteins of koi herpesvirus.

As a prerequisite for development of improved vaccines and diagnostic tools for control of the fish pathogen koi herpesvirus, or cyprinid herpesvirus 3 (CyHV-3), we have started to identify putative viral envelope and capsid proteins. The complete or partial CyHV-3 open reading frames ORF25, ORF65, ORF92, ORF99, ORF136, ORF138, ORF146, ORF148, and ORF149 were expressed as bacterial fusion proteins, which were then used for preparation of monospecific rabbit antisera. All of the sera that were obtained detected their target proteins in cells transfected with the corresponding eukaryotic expression plasmids.

Schmallenberg virus-two years of experiences.

In autumn 2011, a novel species of the genus Orthobunyavirus of the Simbu serogroup was discovered close to the German/Dutch border and named Schmallenberg virus (SBV). Since then, SBV has caused a large epidemic in European livestock. Like other viruses of the Simbu serogroup, SBV is transmitted by insect vectors.

Identification of conserved amino acids in pUL34 which are critical for function of the pseudorabies virus nuclear egress complex.

Unlabelled: Nuclear egress of herpesvirus capsids is mediated by a conserved heterodimeric complex of two viral proteins, designated pUL34 and pUL31 in herpes simplex virus and pseudorabies virus (PrV). pUL34, a tail-anchored membrane protein, is targeted to the nuclear envelope and recruits pUL31 to the inner nuclear membrane (INM) to provide the docking and envelopment machinery for the nascent capsid. While the less conserved C-terminal part of pUL34 is required for correct positioning of the nuclear egress complex (NEC) at the INM, the conserved N-terminal part functions as a docking site for pUL31.

Pseudorabies virus pUL46 induces activation of ERK1/2 and regulates herpesvirus-induced nuclear envelope breakdown.

Unlabelled: Herpesvirus capsid morphogenesis occurs in the nucleus, while final maturation takes place in the cytosol, requiring translocation of capsids through the nuclear envelope. The nuclear egress complex, consisting of homologs of herpes simplex virus pUL31 and pUL34, is required for efficient nuclear egress via primary envelopment and de-envelopment. Recently, we described an alternative mode of nuclear escape by fragmentation of the nuclear envelope induced by replication-competent pUL31 and pUL34 deletion mutants of the alphaherpesvirus pseudorabies virus (PrV), which had been selected by serial passaging in cell culture.

Isolation of sindbis virus from a hooded crow in Germany.

Sindbis virus (SINV) is an arbovirus that causes clinical symptoms, including arthritis, rash, and fever during acute human infections. In Europe, SINV outbreaks are largely restricted to northern Europe. Intrigued by the isolation of SINV from mosquitoes in southwestern Germany in 2009, we initiated a passive arbovirus-monitoring program in birds and analyzed a total of 685 samples.

Virus isolate from carp: genetic characterization reveals a novel picornavirus with two aphthovirus 2A-like sequences.

Picornaviruses have been isolated from a variety of hosts, mainly mammals and birds. Here, we describe the sequence analysis of carp picornavirus 1 (CPV-1) F37/06 that was isolated from an organ pool (heart, brain, liver) of a common carp (Cyprinus carpio). This carp perished after an accidental discharge of liquid manure into a fish pond and presented without obvious clinical symptoms.

Chimeric newcastle disease virus protects chickens against avian influenza in the presence of maternally derived NDV immunity.

Newcastle disease virus (NDV), an avian paramyxovirus type 1, is a promising vector for expression of heterologous proteins from a variety of unrelated viruses including highly pathogenic avian influenza virus (HPAIV). However, pre-existing NDV antibodies may impair vector virus replication, resulting in an inefficient immune response against the foreign antigen. A chimeric NDV-based vector with functional surface glycoproteins unrelated to NDV could overcome this problem.

Characterization of a novel picornavirus isolate from a diseased European eel (Anguilla anguilla).

A novel picornavirus was isolated from specimens of a diseased European eel (Anguilla anguilla). This virus induced a cytopathic effect in eel embryonic kidney cells and high mortality in a controlled transmission study using elvers. Eel picornavirus has a genome of 7,496 nucleotides that encodes a polyprotein of 2,259 amino acids.

Isolation and partial characterization of a novel virus from different carp species suffering gill necrosis - ultrastructure and morphogenesis.

Two isolates of a novel enveloped RNA virus were obtained from carp and koi carp with gill necrosis. Both isolates behaved identically and could be propagated in different cyprinid cell lines forming large syncytia. The virus was sensitive to lipid solvents and neither exhibited haemadsorption/haemagglutination nor reverse transcriptase activity.

Glycoproteins gB and gH are required for syncytium formation but not for herpesvirus-induced nuclear envelope breakdown.

Herpesvirus nucleocapsids are assembled in the nucleus, whereas maturation into infectious virions takes place in the cytosol. Since, due to their size, nucleocapsids cannot pass the nuclear pores, they traverse the nuclear envelope by vesicle-mediated transport. Nucleocapsids bud at the inner nuclear membrane into the perinuclear space, forming primary enveloped particles and are released into the cytosol after fusion of the primary envelope with the outer nuclear membrane.

An Epstein-Barr virus mutant produces immunogenic defective particles devoid of viral DNA.

Virus-like particles (VLPs) from hepatitis B and human papillomaviruses have been successfully used as preventative vaccines against these infectious agents. These VLPs consist of a self-associating capsid polymer formed from a single structure protein and are devoid of viral DNA. Since virions from herpesviruses consist of a large number of molecules of viral and cellular origin, generating VLPs from a subset of these would be a particularly arduous task.

The way out: what we know and do not know about herpesvirus nuclear egress.

Herpesvirus capsids are assembled in the nucleus of infected cells whereas final maturation occurs in the cytosol. To access the final maturation compartment, intranuclear capsids have to cross the nuclear envelope which represents a formidable barrier. They do so by budding at the inner nuclear membrane, thereby forming a primary enveloped particle residing in the perinuclear cleft.

Membrane and inclusion body targeting of lyssavirus matrix proteins.

Lyssavirus matrix proteins (M) support virus budding and have accessory functions that may contribute to host cell manipulation and adaptation to specific hosts. Here, we show that rabies virus (RABV) and European Bat Lyssavirus Type 1 (EBLV-1) M proteins differ in targeting and accumulation at cellular membranes. In contrast to RABV M, EBLV-1 M expressed from authentic EBLV-1 or chimeric RABV accumulated at the Golgi apparatus.

Analysis of viral and cellular factors influencing herpesvirus-induced nuclear envelope breakdown.

Herpesvirus nucleocapsids are translocated from their assembly site in the nucleus to the cytosol by acquisition of a primary envelope at the inner nuclear membrane which subsequently fuses with the outer nuclear membrane. This transport through the nuclear envelope requires homologs of the conserved herpesviral pUL31 and pUL34 proteins which form the nuclear egress complex (NEC). In its absence, 1,000-fold less virus progeny is produced.

Identification and functional analysis of the small membrane-associated protein pUL11 of avian infectious laryngotracheitis virus.

pUL11 is a highly conserved, small, acylated, membrane-associated tegument protein of herpesviruses. It is involved in final envelopment of nascent virions in the cytoplasm, although the precise mechanism is still unknown. By screening of mouse monoclonal antibodies (mAb) raised against purified particles of infectious laryngotracheitis virus (ILTV) of chickens (Veits et al.

Structural determinants for nuclear envelope localization and function of pseudorabies virus pUL34.

Herpesvirus proteins pUL34 and pUL31 form a complex at the inner nuclear membrane (INM) which is necessary for efficient nuclear egress. Pseudorabies virus (PrV) pUL34 is a type II membrane protein of 262 amino acids (aa). The transmembrane region (TM) is predicted to be located between aa 245 and 261, leaving only one amino acid in the C terminus that probably extends into the perinuclear space.

A new recombinant Orf virus (ORFV, Parapoxvirus) protects rabbits against lethal infection with rabbit hemorrhagic disease virus (RHDV).

This report describes the generation of a new recombinant Orf virus (ORFV; Parapoxvirus) expressing the major capsid protein VP1 (VP60) of the calicivirus, rabbit hemorrhagic disease virus (RHDV). Authentic expression of VP1 could be demonstrated in cells infected with the recombinant D1701-V-VP1 without the need for production of infectious ORFV progeny. Notably, infected cells also released empty calicivirus-like particles (VLPs).

Nuclear envelope breakdown can substitute for primary envelopment-mediated nuclear egress of herpesviruses.

Herpesvirus nucleocapsids assemble in the nucleus but mature to infectious virions in the cytoplasm. To gain access to this cellular compartment, nucleocapsids are translocated to the cytoplasm by primary envelopment at the inner nuclear membrane and subsequent fusion of the primary envelope with the outer nuclear membrane. The conserved viral pUL34 and pUL31 proteins play a crucial role in this process.