Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0038362 (stomatitis)
 8,852 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Intraperitoneal injection of vesicular stomatitis virus, New Jersey serotype (VSV-NJ), into inbred LSH hamsters resulted in an inapparent infection and survival of the majority of the animals. Infectivity titrations of tissues from VSV-NJ-infected hamsters showed that little or no virus was present following infection. The few animals that died from VSV-NJ succumbed to neurological disease. This is in contrast to our previous work where we found that LSH hamsters are exquisitely sensitive to i.p. infection by VSV, Indiana serotype (VSV-IND), and that large amounts of VSV-IND could be detected in tissues. The 50% lethal doses of VSV-NJ and VSV-IND for LSH hamsters are approximately 10(7) pfu and 1 pfu, respectively. When peritoneal cells from LSH hamsters were infected in vitro with both VSV serotypes, the yields of VSV-NJ consistently were lower than yields of VSV-IND. The growth of the two serotypes in fibroblast and epithelial cell lines of hamster origin was similar. VSV-NJ was not more efficient than VSV-IND in inducing interferon in vitro or in vivo, and there appeared to be no difference in the sensitivities of the two serotypes to the antiviral activity of hamster interferon. Thus, i.p. infection with less than 10(7) pfu of VSV-NJ is avirulent for LSH hamsters and this avirulence may be due, in part, to partial intrinsic resistance of peritoneal macrophages to infection by VSV-NJ. When four LSH hamsters that had been immunized with VSV-NJ were challenged with 10(6) LD50 of VSV-IND, three of the four animals survived. Despite the fact that neutralizing antibodies to VSV-NJ did not cross-neutralize VSV-IND, five out of five LSH hamsters were protected by passive transfer of 1 ml of immune hamster anti-VSV-NJ antiserum prior to challenge with VSV-IND. This suggests an important role for non-neutralizing antibodies.
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PMID:Differing responses of hamsters to infection by vesicular stomatitis virus Indiana and New Jersey serotypes. 241 43

Highly passaged defective-interfering (DI) particle preparations of equine herpesvirus type 1 (EHV-1) were found to mediate the co-establishment of persistent infection and oncogenic transformation of permissive hamster embryo cells. Four cell lines, designated DI-1 to DI-4, were shown to possess biological properties typical of transformed cells and to induce the rapid formation of metastatic fibrosarcomas when injected into syngeneic LSH hamsters. Corresponding DI tumour cell lines, designated DI-1T to DI-4T, were found to be virus non-producing, to be transplantable in the hamster, and, like the four parent DI cell lines, to express EHV-1-coded antigens and to be resistant to superinfection with EHV-1 but not with a heterologous virus, vesicular stomatitis virus. All transformed cell lines, but not the tumour cell lines, contained a population of cells (2.6 to 9%) that continued to release infectious virus after 100 passages in culture. The production of interferon and selection of temperature-sensitive mutants did not appear to play a role in the maintenance of persistent infection. However, it was demonstrated that these persistently infected cells continued to release not only infectious virus but also DI particles after more than 2 years in culture. DI particles were shown to be present in released virus by: (i) detection of the defective virus DNA species (density 1.724 g/ml; standard EHV-1, density 1.716 g/ml) by CsCl analytical ultracentrifugation techniques; (ii) measurement of interference activity of virus released from DI-1 to DI-4 cells against standard EHV-1 replication; (iii) the presence of the 35 megadalton Bg/II fragment unique to the DI particle genome in DNA of released virus. These studies indicate that herpesvirus DI particles may function both in the initiation and maintenance of persistent infection and alter the cytocidal effects of infection to allow the establishment of oncogenic transformation and persistent infection.
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PMID:Chronic production of defective-interfering particles by hamster embryo cultures of herpesvirus persistently infected and oncogenically transformed cells. 617 95

Susceptibility of Syrian hamsters of the inbred LSH and MHA strains to injection of as few as 10 plaque-forming units of vesicular stomatitis virus (VSV) was shown to occur only after intraperitoneal and intrapleural injection and not after injection of VSV intravenously, intranasally, or in the footpads. Despite the fact that fewer LSH hamsters died when VSV was injected via the latter routes, the histopathology of the VSV-induced disease at early times after infection was identical irrespective of the route of virus administration. Histological examination of tissues at various times after administration of VSV by the various routes revealed that VSV exhibited tropism for lymphoreticular tissue, with the greatest amount of necrosis in the splenic periarteriolar lymphoid sheath. A similar pattern also was observed in VSV-infected tissues from genetically resistant UT1 hamsters. Infectivity titrations of various tissues at different times after intraperitoneal injection of VSV revealed that resistant UT1 hamsters began to clear virus from tissues between 40 and 48 h postinfection, whereas virus titers remained high in susceptible animals. Resistance of UT1 hamsters appeared to require an intact spleen since survival of splenectomized animals was less than that of sham-splenectomized UT1 controls. Sublethal whole-body irradiation was also able to reduce resistance of UT1 hamsters (survival was reduced from 100 to 50%). Bone marrow cells from resistant (UT1 X LSH) F1 females were transferred into lethally irradiated susceptible LSH hamsters, and hematopoietic chimeras were produced. After intraperitoneal injection of 100 plaque-forming units of VSV, all of the female chimeras survived, but only 33% of male chimeras survived. These data indicate that resistance to VSV in Syrian hamsters is mediated, at least partially, by cells of hematopoietic origin.
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PMID:Involvement of cells of hematopoietic origin in genetically determined resistance of Syrian hamsters to vesicular stomatitis virus. 627 20