Gene/Protein
Disease
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Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
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Target Concepts:
Gene/Protein
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Query: UMLS:C0038362 (
stomatitis
)
8,852
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Intracerebral infection of weanling Swiss mice with a temperature-sensitive (ts) mutant of vesicular
stomatitis
virus (VSV), ts pi364, resulted in a unique neuropathological syndrome not previously described with other VSV mutants. Mice infected with wild-type VSV died from an acute encephalitis characterized by neuronal necrosis and efficient virus replication in both brain and spinal cord. In contrast, with VSV ts pi364, the most prominent histopathological feature was destruction of the ependyma of the lateral ventricles. Virus antigen was also limited to the leptomeninges and the lateral ventricles. Infected mice survived and developed
hydrocephalus
. Replication of ts pi364 in the brain was 10- to 100- fold less than that of wild-type VSV, and appearance of virus in the spinal cord was delayed. VSV ts pi364 was isolated from mouse cells persistently infected with VSV. Another VSV ts pi mutant, isolated from the same persistent infection, behaved in vivo like wild-type VSV, even though both mutants were very similar in plaque size, reversion frequency, cut-off temperature, and synthesis of virus-specific proteins at semipermissive temperature. These results strongly suggest that VSV ts pi364 has a second, non-ts mutation which results in a restricted target cell range in vivo; wild-type VSV can infect both neurons and ependymal cells, whereas ts pi364 does not replicate in neurons.
...
PMID:Neurovirulence mutant of vesicular stomatitis virus with an altered target cell tropism in vivo. 616 14
Hydrocephalus
developed in weanling Swiss-Webster mice after intracerebral (IC) inoculation of a naturally selected temperature-sensitive (ts) mutant of vesicular
stomatitis
virus (VSV). This spontaneous ts mutant was isolated from a persistent infection (pi) of mouse L cells with VSV, and named VSV-tspi 364 (complementation Group I). High doses of the mutant virus induced
hydrocephalus
in 87% of the mice. Infected mice were clinically asymptomatic, except for a few with transient hind-limb paralysis and proximal muscle weakness. After inoculation, mice were killed every other day for the first two weeks, and weekly thereafter for two months. Virological studies showed replication in the brain in the first nine days post-inoculation (DPI). Neutralizing antibody titers increased rapidly after 15 DPI, and elevated titers were measured at 30 DPI. Pathologically, there was patchy ependymal cell necrosis in the aqueduct and lateral ventricles, as early as the second DPI. Mild meningoencephalitis and severe ependymal cell necrosis with focal aqueductal stenosis were present iun the first two weeks of infection.
Hydrocephalus
began as early as 10 DPI and became severe at 28 DPI. This represents the first animal model for
hydrocephalus
following IC inoculation of a spontaneous ts mutant of a rhabdovirus. In our study, inoculation of mice with wild-type VSV and with other spontaneous and chemical ts mutants of VSV IC as well as with tspi 364 by other routes did not cause
hydrocephalus
.
...
PMID:Hydrocephalus in weanling mice induced by a temperature-sensitive mutant of vesicular stomatitis virus. 629 Jun 12
UBP43/USP18 was described as a specific protease that removes conjugated ubiquitin-like modifier ISG15 from target proteins. The severe phenotype of UBP43(-/-) mice characterized by premature death, brain cell injury, and deregulated STAT1 signaling was ascribed to an enhanced conjugation of ISG15. In contrast, no phenotypic changes were detected in ISG15(-/-) mice. To verify the role of ISG15 in the phenotype of UBP43(-/-) mice, we employed mice deficient for both ISG15 and UBP43. Here, we show that the phenotype of UBP43(-/-) mice was not rescued by the absence of ISG15, as evident from unchanged mortality, neurological symptoms, and occurrence of
hydrocephalus
. Also, the reported hypersensitivity of UBP43(-/-) mice to an interferon inducer, poly(I . C), was ISG15 independent. Furthermore, no evidence for a role of ISG15 in the modulation of STAT1 signaling or in the resistance against lymphocytic choriomeningitis virus and vesicular
stomatitis
virus was found. Presented results clearly demonstrate that the phenotypic alterations of UBP43(-/-) mice are not caused by the lack of ISG15 deconjugation and must be due to another, non-ISG15-mediated molecular mechanism.
...
PMID:Reexamination of the role of ubiquitin-like modifier ISG15 in the phenotype of UBP43-deficient mice. 1631 24
