Protein 2A is not required for Theiler's virus replication (original) (raw)
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Virus Research, 2009
Theiler's murine encephalomyelitis virus (TMEV) was used to investigate the distribution of P2 proteins in host cells and examine the effect of amino acid substitutions in conserved residues of the 2C protein on virus growth. The distribution of viral proteins 2B, 2C and 2BC with marker proteins of the endoplasmic reticulum (ER) and/or Golgi suggest an association with membranes of the secretory pathway. Similar results were obtained for truncated 2C and 2BC proteins with C-terminal deletions suggesting that the N-terminal region of the 2C protein is important in dictating distribution patterns. The significance of the high degree of conservation of this 2C region throughout the Picornaviridae was investigated by substituting conserved amino acid residues for alanine to create six mutant strains.
The morphogenesis of Theiler's murine encephalomyelitis virus is strain specific
Archives of Virology, 2003
During a single cycle infection with the neurovirulent GDVII-and demyelinating DA-strain of Theiler's murine encephalomyelitis virus (TMEV) in L-929 cells, different subviral particles were found for both strains. Early in the assembly process, the DA-strain generated 14 S pentamers composed of the viral proteins VP0, VP1 and VP3, while in GDVII-infected cells, particles with the same protein composition but with a sedimentation coefficient of 20 S were found. These newly discovered 20 S particles are probably virion assembly precursors considering their capsid protein composition and their early time of appearance in infected cells. Near the end of the assembly process, VP0, VP1 and VP3 containing 80 S empty capsids became apparent in GDVII-infected cells, while these particles could not be found in DA-infected cells. The significance of these empty capsids will be discussed. After virion assembly, 14 S particles were observed for both strains. These 14 S particles resulted from the degradation of the 160 S virions as indicated by their protein composition (VP1, VP2, VP3) and time of appearance. Our results demonstrate that the assembly of the GDVII-strain differs from that of the DA-strain. In addition, the strain-specific assembly of TMEV implies that not all picornaviruses assemble as proposed by the poliovirus morphogenesis model and thus rendering its general validity questionable.
Journal of Virology, 2000
Deletion of the entire leader polypeptide of the GDVII strain of Theiler's murine encephalomyelitis virus (TMEV) results in the production of an attenuated virus that grows in baby hamster kidney (BHK) cells but cannot grow at all in mouse L-929 cells. This study examined the reasons for the failure of dl-L, the GDVII variant that lacks the leader polypeptide, to grow in mouse cells. At low multiplicities of infection, it was difficult to detect any viral proteins in mouse cells. However, levels of positive-and negative-strand RNA molecules were only moderately reduced in these infections. Viral RNA showed no major defect in translatability, as the mutant viral RNA was nearly as efficient as that of the wild-type (
Chimeric Theiler's virus with altered tropism for the central nervous system
Journal of virology, 1994
Theiler's virus is a neurotropic murine picornavirus which, depending on the strain, causes either an acute encephalitis or a persistent demyelinating disease. Following intracranial inoculation, the demyelinating strains infect sequentially the grey matter of the brain, the grey matter of the spinal cord, and finally the white matter of the spinal cord, where they persist and cause chronic demyelination. The neurovirulent strains cause a generally fatal encephalitis with lytic infection of neurons. The study of chimeric Theiler's viruses, obtained by recombining the genomes of demyelinating and neurovirulent strains, has shown that the viral capsid contains determinants for persistence and demyelination. In this article we describe the recombinant virus R5, in which the capsid protein VP1 and a small portion of protein 2A come from the neurovirulent GDVII strain and the rest of the genome comes from the persistent DA strain. The capsid of virus R5 also contains one mutation...
Journal of Virology, 1993
The highly structured 5' untranslated region (5' UTR) of Theiler's murine encephalomyelitis virus is involved in cap-independent translation of the viral RNA. Previously, we reported that the bicistronic mRNA chloramphenicol acetyltransferase-5' UTR-luciferase (Luc) efficiently expressed Luc both in a rabbit reticulocyte lysate and when transfected into BHK-21 cells. Insertion of 3 nucleotides at position 665 in the 5' UTR of this bicistronic mRNA resulted in greatly reduced Luc expression in BHK-21 cells but had little effect on expression of Luc in rabbit reticulocyte lysate. This mutation was also introduced into a virulent Theiler's murine encephalomyelitis virus chimera, Chi-VL. The kinetics of viral RNA and protein synthesis and virus production in BHK-21 cells were slower for the mutant chimera [Chi-VL(IN668)] than for Chi-VL; however, the final virus yields were comparable. Intracerebral inoculation of mice with the chimeras revealed that Chi-VL(IN668...
The 3''untranslated region of picornavirus RNA: Features required for e?cient genome replication
1995
The role of the 3 untranslated region (3UTR) in the replication of enteroviruses has been studied with a series of mutants derived from either poliovirus type 3 (PV3) or a PV3 replicon containing the reporter gene chloramphenicol acetyltransferase. Replication was observed when the PV3 3UTR was replaced with that of either coxsackie B4 virus, human rhinovirus 14 (HRV14), bovine enterovirus, or hepatitis A virus, despite the lack of sequence and secondary structure homology of the 3UTRs of these viruses. The levels of replication observed for recombinants containing the 3UTRs of hepatitis A virus and bovine enterovirus were lower than those for PV3 and the other recombinants. Extensive site-directed mutagenesis of the single stem-loop structure formed by the HRV14 3UTR indicated the importance of (i) the loop sequence, (ii) the stability of the stem, and (iii) the location of the stem immediately upstream of the poly(A) tail. The role of a 4-bp motif at the base of the HRV14 stem, highly conserved among rhinoviruses, was examined by site-directed mutagenesis of individual base pairs. This analysis did not pinpoint a particular base pair as crucial for function. The requirement for immediate adjacent positioning of the open reading frame and the 3UTR was examined by insertion of a 1.1-kb heterologous sequence. A replicon containing this insert replicated to about 30% of the level observed for the wild type. However, the corresponding virus consistently deleted most of the inserted fragment, suggesting that its presence was incompatible with a full replication cycle.
Theiler's viruses with mutations in loop I of VP1 lead to altered tropism and pathogenesis
Journal of virology, 1999
Theiler's murine encephalomyelitis viruses are picornaviruses that can infect the central nervous system. The DA strain produces an acute polioencephalomyelitis followed by a chronic demyelinating disease in its natural host, the mouse. The ability of DA virus to induce a demyelinating disease renders this virus infection a model for human demyelinating diseases such as multiple sclerosis. Here we describe the generation and characterization of DA virus mutants that contain specific mutations in the viral capsid protein VP1 at sites believed to be important contact regions for the cellular receptor(s). A mutant virus with a threonine-to-aspartate (T81D) substitution in VP1 loop I adjacent to the putative virus receptor binding site exhibited a large-plaque phenotype but had a slower replication cycle in vitro. When this mutant virus was injected into susceptible mice, an altered tropism was seen during the acute stage of the disease and the chronic demyelinating disease was not ...
Dynamics of picornavirus RNA replication within infected cells
Journal of General Virology, 2008
Replication of many picornaviruses is inhibited by low concentrations of guanidine. Guanidine-resistant mutants are readily isolated and the mutations map to the coding region for the 2C protein. Using in vitro replication assays it has been determined previously that guanidine blocks the initiation of negative-strand synthesis. We have now examined the dynamics of RNA replication, measured by quantitative RT-PCR, within cells infected with either swine vesicular disease virus (an enterovirus) or foot-and-mouth disease virus as regulated by the presence or absence of guanidine. Following the removal of guanidine from the infected cells, RNA replication occurs after a significant lag phase. This restoration of RNA synthesis requires de novo protein synthesis. Viral RNA can be maintained for at least 72 h within cells in the absence of apparent replication but guanidine-resistant virus can become predominant. Amino acid substitutions within the 2C protein that confer guanidine resistance to swine vesicular disease virus and foot-and-mouth disease virus have been identified. Even when RNA synthesis is well established, the addition of guanidine has a major impact on the level of RNA replication. Thus, the guanidine-sensitive step in RNA synthesis is important throughout the virus life cycle in cells.
Journal of Virology, 1999
Upon initiation of translation of picornavirus RNA, the ribosome is believed to bind the internal ribosome entry site of the template and then to form a productive complex with a downstream RNA segment, the starting window. The presence or absence of an AUG triplet within the starting window of the RNA of Theiler’s murine encephalomyelitis virus (a picornavirus) is known to modulate its neurovirulence. In this study, mutants of this virus in which the starting windows, lying upstream of the viral polyprotein reading frame, had AUGs with different nonoptimal contexts were engineered. Upon intracerebral inoculation of mice, the mutants proved to be partially attenuated, as judged by a significant increase in the dose causing paralysis in 50% of the animals (PD50). Mutants with similar PD50s might differ from one another by eliciting either a severe, fatal tetraplegy or only mild, recoverable neurologic lesions. Some of the mutants triggered a chronic inflammatory reaction in the white...
Infectious cDNA clones of the DA strain of Theiler's murine encephalomyelitis virus
Journal of Virology, 1989
The DA strain and other members of the TO subgroup of Theiler's murine encephalomyelitis viruses cause a persistent demyelinating infection, whereas the GDVII strain and other GDVII subgroup strains cause an acute lethal polioencephalomyelitis. We generated an infectious DA cDNA clone inserted into a transcription vector. Virus derived from transfection of transcripts produced a demyelinating disease indistinguishable from that of wild-type virus. The infectious clone provides a critical reagent for the production of interstrain recombinant viruses to help identify genetic loci responsible for the biological activities of the strains.