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Query: UMLS:C0019158 (
hepatitis
)
30,205
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
C57BI/6N mice develop a
CNS demyelinating disease
when inoculated intracranially at 4 weeks of age with the A59 strain of mouse
hepatitis
virus (MHV-A59). In order to explore the virus-host interactions, the histological features of the demyelinating disease were correlated with the spatial and temporal distribution of viral transcripts and the expression of oligodendrocyte-specific genes (myelin basic protein, proteolipid protein, myelin-associated glycoprotein, and 2',3' cyclic nucleotide 3'-phosphohydrolase) in the spinal cord of diseased mice. Three distinct phases in the disease were identified. In the first phase, 1 week postinfection (1 WPI), virus replication was widespread in both gray and white matter but was preferentially occurring in glial cells. In the ventral and dorsal root zones where viral transcripts were most abundant, all myelin gene transcripts were decreased before demyelination was seen. During the second phase of the disease (2-3 WPI), viral transcripts decreased in abundance and became restricted to the white matter. Numerous demyelinating lesions were observed and were characterized by inflammatory cells, paucity of oligodendrocytes, and a profound decrease of all myelin gene transcripts. In the third phase of the disease (4-6 WPI) no viral transcripts were detected, and remyelination began. In the lesions and the tissue surrounding them, transcripts of all myelin genes increased to levels above normal. The increased expression of myelin gene transcripts occurred in a synchronized manner and with a cellular distribution reminiscent of that seen in developmental myelination. These molecular events correlated with efficient remyelination and clinical recovery in this murine demyelinating disease.
...
PMID:Expression of viral and myelin gene transcripts in a murine CNS demyelinating disease caused by a coronavirus. 247 65
Infection of mice with a neurotropic strain of MHV (MHV-A59), a non-neurotropic strain of MHV (MHV-2), and a set of recombinant viruses (kindly provided by Dr. Michael Lai) were used to map genetic determinants of viral neurotropism and demyelination. Following intracerebral (IC) inoculation of 4-week old C57B1/6 mice, 1LD50 of MHV-A59 produced acute meningoencephalitis and
hepatitis
, and subsequently chronic
CNS demyelinating disease
. IC inoculation of 1LD50 of MHV-2 produced acute hepatitis without CNS disease. Recombinants ML-3, ML-11, ML-7, ML-8, ML-9 and ML-10 produced acute encephalitis similar to MHV-A59. According to previous oligonucleotide fingerprinting analysis the only common denominator of the neurotropic recombinant viruses was an M gene derived from MHV-A59. Sequencing of PCR-amplified viral S and M genes confirmed that the M genes of neurotropic viruses are derived from A59 while the S genes of neurotropic viruses are either derived from MHV-2 or from A59. In tissue culture, ML-11, ML-3 and MHV-2 are fusion negative, while A59, ML-7, ML-8 and ML-10 are fusion positive. Thus, neurotropism in MHVs is not linked to fusion or the S gene. Moreover, the M gene may be a significant determinant of neurotropism and acute encephalitis.
...
PMID:Genomic regions associated with neurotropism identified in MHV by RNA-RNA recombination. 883 May 32
MS is an autoimmune
CNS demyelinating disease
in which infection appears to be an important pathogenic factor. Molecular mimicry, the cross-activation of autoreactive T cells by mimic peptides from infectious agents, is a possible explanation for infection-induced autoimmunity. Infection of mice with a non-pathogenic strain of Theiler's murine encephalomyelitis virus (TMEV) engineered to express an epitope from Haemophilus influenzae (HI) sharing 6/13 amino acids with the dominant proteolipid protein (PLP) epitope, PLP139-151, can induce CNS autoimmune disease. Here we demonstrate that another PLP139-151 mimic sequence derived from murine
hepatitis
virus (MHV) which shares only 3/13 amino acids with PLP139-151 can also induce CNS autoimmune disease, but only when delivered by genetically engineered TMEV, not by immunization with the MHV peptide. Further, we demonstrate the importance of proline at the secondary MHC class II contact residue for effective cross-reactivity, as addition of this amino acid to the native MHV sequence increases its ability to cross-activate PLP139-151-specific autoreactive T cells, while substitution of proline in the HI mimic peptide has the opposite effect. This study describes a structural requirement for potential PLP139-151 mimic peptides, and provides further evidence for infection-induced molecular mimicry in the pathogenesis of autoimmune disease.
...
PMID:Structural requirements for initiation of cross-reactivity and CNS autoimmunity with a PLP139-151 mimic peptide derived from murine hepatitis virus. 1698 Nov 79
Multiple sclerosis (MS) is an inflammatory demyelinating disease of the CNS. Recent studies have demonstrated that significant axonal injury also occurs in MS patients and correlates with neurological dysfunction, but it is not known whether this neuronal damage is a primary disease process, or occurs only secondary to demyelination. In the current studies, neurotropic strains of mouse
hepatitis
virus (MHV) that induce meningitis, encephalitis, and demyelination in the CNS, an animal model of MS, were used to evaluate mechanisms of axonal injury. The pathogenic properties of genetically engineered isogenic spike protein recombinant demyelinating and nondemyelinating strains of MHV were compared. Studies demonstrate that a demyelinating strain of MHV causes concomitant axonal loss and macrophage-mediated demyelination. The mechanism of axonal loss and demyelination in MHV infection is dependent on successful transport of virus from gray matter to white matter using the MHV host attachment spike glycoprotein. Our data show that axonal loss and demyelination can be independent direct viral cytopathic events, and suggest that similar direct axonal damage may occur in MS. These results have important implications for the design of neuroprotective strategies for
CNS demyelinating disease
, and our model identifies the spike protein as a therapeutic target to prevent axonal transport of neurotropic viruses.
...
PMID:Mechanisms of primary axonal damage in a viral model of multiple sclerosis. 2000 59
