Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0014070 (encephalomyelitis)
13,017 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Depending on the strain, Theiler murine encephalomyelitis virus (TMEV) may cause acute encephalitis or chronic demyelinating disease, which is associated with viral persistence in mice. Persistent central nervous system infection and demyelination by the less-virulent TMEV has provided a useful animal model for the human demyelinating disease multiple sclerosis. The less-virulent BeAn strain of TMEV was crystallized and its atomic structure was determined by x-ray crystallography. The alpha-carbon coordinates of the closely related Mengo virus were used to calculate the initial phases to 3.5 A resolution and the interpretable electron density map was produced by 10 cycles of 30-fold noncrystallographic molecular replacement averaging. The structure revealed a high degree of overall structural similarity to Mengo virus as well as substantial differences in the surface loops. These structural changes might be correlated with TMEV host-specific recognition, pH-related stability, and neurovirulence.
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PMID:Three-dimensional structure of Theiler murine encephalomyelitis virus (BeAn strain). 131 22

The DA strain of Theiler's murine encephalomyelitis virus (TMEV), a picornavirus, causes a persistent, restricted infection and demyelinating disease in mice. In contrast, the GDVII strain causes an acute, fatal, neuronal disease and is highly neurovirulent. To investigate the role of the TMEV 5' untranslated region (UTR) in translational efficiency and the TMEV subgroup differences, we tested the translational efficiency of transcripts in vitro derived from plasmids containing DA, GDVII, or DA/GDVII chimeric 5' UTRs preceding a reporter gene or the rest of the TMEV genome. We demonstrated that GDVII RNA translates more efficiently in rabbit reticulocyte lysate than DA RNA and that this enhanced translation is mediated by multiple domains in the GDVII 5' UTR as well as a region of the genome outside of the 5' UTR. We also identified a region within DA nucleotides 14 to 395 which inhibits translation of DA RNA and could contribute to the persistent, restricted DA central nervous system infection; the predicted secondary structure of the 5' UTR demonstrates a remarkable stem-loop structure within this region that is relatively unique among picornaviruses. Data from experiments involving DA/GDVII chimeric 5' UTR full-length infectious cDNA clones suggested that sequences in the 5' UTR can affect the neurovirulence phenotype but that translational efficiency is necessary but not sufficient for neurovirulence. These studies emphasize the multigenic nature of neurovirulence and the importance of translation in the regulation of picornaviral gene expression.
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PMID:Influence of Theiler's murine encephalomyelitis virus 5' untranslated region on translation and neurovirulence. 160 56

Theiler's murine encephalomyelitis viruses (TMEV) belong to the Picornaviridae, and are divided into two subgroups. TO subgroup strains produce a persistent demyelinating central nervous system infection in mice, while GDVII subgroup strains cause acute polioencephalomyelitis. We generated three overlapping clones of the genome of DA strain, a member of TO subgroup. Sequence analysis revealed that the genome is 8093 nucleotides long with a poly(A) tail. The 5' noncoding region stretches from nucleotides 1 to 1065 and lacks a poly(C) tract. The open reading frame stretches from 1066 to 7968 and encodes 2301 amino acids. DA strain sequence is more closely related to members of the Cardiovirus genus than to members of other Picornavirus genera. Comparison with sequence of BeAn strain, another TO subgroup strain, showed that the P1 area has the greatest number of differences, while the noncoding regions are more well-conserved. The three overlapping clones will be important in recombinant infectious cDNA studies between strains of both subgroups.
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PMID:Molecular cloning and sequence determination of DA strain of Theiler's murine encephalomyelitis viruses. 283 72

Theiler's murine encephalomyelitis viruses (TMEV) are separable into two groups based on their biological behavior: those highly virulent isolates which are unable to cause persistent infection and the less virulent isolates which regularly produce persistent central nervous system infection in mice. Two highly virulent and five less virulent TMEV were found to have the same buoyant density (1.34 g/ml) on isopycnic centrifugation and virion structure by electron microscopy. Negatively stained virus particles purified in Cs(2)SO(4) gradients appeared to have icosahedral symmetry and measured 28 nm in diameter. Mature virions were found to possess three major structural polypeptides, VP1, VP2 and VP3, in the range of 25,000 to 35,000 daltons, and a smaller fourth major polypeptide, VP4, of 6,000 daltons on sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The precursor of VP2 and VP4, VP0, which is a minor polypeptide of mature picornavirus particles, was also identified. However, a slight but consistent difference in several of the capsid polypeptides between the highly virulent and less virulent TMEV was found. VP1 was slightly larger (34,000 versus 33,500 daltons) and VP2 was slightly smaller (31,000 versus 32,000 daltons) for the highly virulent strains compared to the same polypeptide species in the less virulent viruses. VP0 was also slightly smaller (35,500 versus 36,000 daltons) for the highly virulent isolates compared to their less virulent counterparts. Finally, trypsin which was used initially in our purification procedure resulted in preferential cleavage of a 2,000-molecular-weight fragment or fragments from VP1 of only the less virulent isolates.
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PMID:Purification of Theiler's murine encephalomyelitis virus and analysis of the structural virion polypeptides: correlation of the polypeptide profile with virulence. 624 66

Encephalomyelitis was induced in mice by intravenous inoculation with encephalomyocarditis virus. Examination of the cerebrospinal fluid revealed marked pleocytosis and increased amounts of protein, including immunoglobulins. These proteins entered the cerebrospinal fluid by transfer from serum during the period of central nervous system infection.
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PMID:CSF changes during acute meningoencephalitis in mice caused by encephalomyocarditis virus. 626 82

Theiler's murine encephalomyelitis virus (TMEV) produces a persistent central nervous system infection and chronic, inflammatory demyelinating disease in susceptible mice. TMEV antigen(s) and RNA genome have been detected in astrocytes, oligodendrocytes, and macrophages during persistence. Whether there is a predominant cell type in which TMEV persists has not been resolved. Since TMEV-induced demyelinating lesions are infiltrated with macrophages and a number of other persistent viruses show near-exclusive tropism for these phagocytic cells, we used two-color immunofluorescent staining with conventional and confocal microscopy to colocalize TMEV to cells that stain with monoclonal antibodies (MOMA-2) [unknown antigen], Mac-1 [CD11b], FA-11 [CD66], and 2F8 [scavenger receptor]) to macrophages in BeAn-infected SJL mice. A predominant virus antigen burden within macrophages infiltrating demyelinating lesions was seen. A dichotomy of cells staining for virus antigen(s) was found with infected cells containing either a large or small virus antigen load. Ninety percent of cells with a large virus antigen load were large phagocytes (20 to 50 microns) that were readily detected at low power (5x objective). Cells with smaller amounts of virus antigen(s) turned out to be either these same large phagocytic cells or much smaller cells, approximately equal to 10 microns in diameter. Forty percent of cells with a small virus antigen load were macrophages. The unidentified approximately equal to 10-microns cells that are virus antigen positive and macrophage negative in this study could still be macrophages, or they may be oligodendrocytes. The fact that virus was detected in the cytoplasm and not phagolysosomes of macrophages and the sheer mass of fluorescently stained virus proteins in some macrophages suggest that TMEV persists in these phagocytic cells by active virus replication.
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PMID:The predominant virus antigen burden is present in macrophages in Theiler's murine encephalomyelitis virus-induced demyelinating disease. 788 2

We present a 28-year-old woman with encephalomyelitis and concomitant central nervous system infection by Epstein-Barr virus. Progression took place in 2 phases, with myelitis at the beginning and encephalitis developing later. Despite great functional impairment, recovery was good and the patient was left suffering only from urinary retention that was presumably caused by spinal lesions. The etiology of the case is unusual, particularly in adults.
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PMID:[Encephalomyelitis due to Epstein-Barr virus]. 789 12

Theiler's murine encephalomyelitis viruses (TMEVs) belong to the Picornaviridae family and are divided into two groups, typified by strain GDVII virus and members of the TO (Theiler's original) group. The highly virulent GDVII group causes acute encephalitis in mice, while the TO group is less virulent and causes a chronic demyelinating disease which is associated with viral persistence in mice. This persistent central nervous system infection with demyelination resembles multiple sclerosis (MS) in humans and has thus become an important model for studying MS. It has been shown that some of the determinants associated with viral persistence are located on the capsid proteins of the TO group. Structural comparisons of two persistent strains (BeAn and DA) and a highly virulent strain (GDVII) showed that the most significant structural variations between these two groups of viruses are located on the sites that may influence virus binding to cellular receptors. Most animal viruses attach to specific cellular receptors that, in part, determine host range and tissue tropism. In this study, atomic models of TMEV chimeras were built with the known structures of GDVII, BeAn, and DA viruses. Comparisons among the known GDVII, BeAn, and DA structures as well as the predicted models for the TMEV chimeras suggested that a gap on the capsid surface next to the putative receptor binding site, composed of residues from VP1 and VP2, may be important in determining viral persistence by influencing virus attachment to cellular receptors, such as sialyloligosaccharides. Our results showed that sialyllactose, the first three sugar molecules of common oligosaccharides on the surface of mammalian cells, inhibits virus binding to the host cell and infection with the persistent BeAn virus but not the nonpersistent GDVII and chimera 39 viruses.
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PMID:Role of sialyloligosaccharide binding in Theiler's virus persistence. 937 36

TO subgroup strains of Theiler's murine encephalomyelitis virus (TMEV) induce a persistent central nervous system infection and demyelinating disease in mice. This disease serves as an experimental model of multiple sclerosis (MS) because the two diseases have similar inflammatory white matter pathologies and because the immune system appears to mediate demyelination in both processes. We previously reported (H. H. Chen, W. P. Wong, L. Zhang, P. L. Ward, and R. P. Roos, Nat. Med. 1:927-931, 1995) that TO subgroup strains use an alternative initiation codon (in addition to the AUG used to synthesize the picornavirus polyprotein from one long open reading frame) to translate L*, a novel protein that is out of frame with the polyprotein and which plays a key role in the demyelinating disease. We now demonstrate that L* has antiapoptotic activity in macrophage cells and is critical for virus persistence. The antiapoptotic action of L* as well as the differential translation of L* and virion capsid proteins may foster virus persistence in macrophages and interfere with virus clearance. The regulation of apoptotic activity in inflammatory cells may be important in the pathogenesis of TMEV-induced demyelinating disease as well as MS.
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PMID:A protein critical for a Theiler's virus-induced immune system-mediated demyelinating disease has a cell type-specific antiapoptotic effect and a key role in virus persistence. 976 99

Alphaviruses are important causes of mosquito-borne viral encephalitis. The prototype alphavirus, Sindbis virus, causes encephalomyelitis in mice. The primary target cell for nervous system infection is the neuron. Thus, Sindbis virus infection of mice provides a model system for studying virus-neuron interactions. The outcome of infection is dependent on the maturity of the targeted neurons and on the strain of Sindbis virus used for infection. Most Sindbis virus strains can induce programmed cell death or apoptosis in cultured lines of mammalian cells and in immature postmitotic neurons both in vitro and in vivo. As neurons mature they become increasingly resistant to Sindbis virus-induced apoptosis presumably due to increased expression with differentiation of cellular antiapoptotic proteins. Therefore, in the absence of an effective immune response, these relatively avirulent strains of Sindbis virus establish persistent nonfatal infection in mature neurons. More virulent strains of Sindbis virus can overcome this intrinsic resistance of mature neurons to apoptosis and cause neuronal death. Amino acid changes in the virion glycoproteins are the main determinants of neurovirulence and knowledge of the effects of specific changes allows the investigator to design Sindbis viruses of specified neurovirulence for animals of different ages.
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PMID:A review of alphavirus replication in neurons. 980 7


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