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Literature DB >> 195470

Pathogenesis of the slow disease of the central nervous system associated with WM 1504 E virus. I. Relationship of strain susceptibility and replication to disease.

M B Oldstone, P W Lampert, S Lee, F J Dixon.

Abstract

Inbred mouse strains vary considerably in their susceptibility to the chronic neurologic disease caused by WM 1504 E virus. Although all strains inoculated with the virus showed evidence of viral replication, those strains destined to develop chronic disease showed consistently higher titers of viral antigen in their sera and also in their tissues, particularly in the central nervous system, than did resistant strains. Studies of hybrids made by mating susceptible C57BR/cdJ and resistant C57BL/6J strains indicated that resistance is dominant and not sex linked. The major areas of injury included neurons in the anterior horn of the spinal cord, the dentate nucleus of the cerebellum, and other nuclei in the brain stem. Involvement of oligodendrocytes with associated primary demyelination was also noted. Tissue damage accompanied intense gliosis but was without leukocyte infiltration. Immunopathologic studies and parabiotic experiments suggested that tissue injury was likely due to primary direct viral effects. Further, thymus-insufficient nude mice developed this chronic neurologic disease.

Entities: Chemical

Mesh：

Substances：
Antigens, Viral

Year: 1977 PMID： 195470 PMCID： PMC2032160

Source DB: PubMed Journal: Am J Pathol ISSN： 0002-9440 Impact factor: 5.770

22 in total

1. Antibody-induced redistribution of measles virus antigens on the cell surface.

Authors: B S Joseph; M B Oldstone
Journal: J Immunol Date: 1974-10 Impact factor: 5.422

2. Isolation of virus related to SV40 from patients with progressive multifocal leukoencephalopathy.

Authors: L P Weiner; R M Herndon; O Narayan; R T Johnson; K Shah; L J Rubinstein; T J Preziosi; F K Conley
Journal: N Engl J Med Date: 1972-02-24 Impact factor: 91.245

3. Demonstration of a DNA provirus in the lytic growth of visna virus.

Authors: A T Haase; H E Varmus
Journal: Nat New Biol Date: 1973-10-24

4. DNA polymerase activities in varions of visna virus, a causative agent of a "slow" neurological disease.

Authors: J Schlom; D H Harter; A Burny; S Spiegelman
Journal: Proc Natl Acad Sci U S A Date: 1971-01 Impact factor: 11.205

5. Isolation of measles virus from brain cell cultures of two patients with subacute sclerosing panencephalitis.

Authors: L Horta-Barbosa; D A Fuccillo; W T London; J T Jabbour; W Zeman; J L Sever
Journal: Proc Soc Exp Biol Med Date: 1969-10

6. Electron microscopic studies on ordinary and hyperacute experimental allergic encephalomyelitis.

Authors: P Lampert
Journal: Acta Neuropathol Date: 1967-10-20 Impact factor: 17.088

Review 7. Subacute spongiform virus encephalopathies. Scrapie, Kuru and Creutzfeldt-Jakob disease: a review.

Authors: P W Lampert; D C Gajdusek; C J Gibbs
Journal: Am J Pathol Date: 1972-09 Impact factor: 4.307

8. Pathogenesis of visna. II. Effect of immunosuppression upon early central nervous system lesions.

Authors: N Nathanson; H Panitch; P A Palsson; G Petursson; G Georgsson
Journal: Lab Invest Date: 1976-11 Impact factor: 5.662

9. RNA-instructed DNA polymerase activity in a cytoplasmic particulate fraction in brains from Guamanian patients.

Authors: M V Viola; M Frazier; L White; J Brody; S Spiegelman
Journal: J Exp Med Date: 1975-08-01 Impact factor: 14.307

10. Pathogenesis of chronic disease associated with persistent lymphocytic choriomeningitis viral infection. I. Relationship of antibody production to disease in neonatally infected mice.

Authors: M B Oldstone; F J Dixon
Journal: J Exp Med Date: 1969-03-01 Impact factor: 14.307

38 in total

1. Retrovirus-induced spongiform myeloencephalopathy in mice: regional distribution of infected target cells and neuronal loss occurring in the absence of viral expression in neurons.

Authors: D G Kay; C Gravel; Y Robitaille; P Jolicoeur
Journal: Proc Natl Acad Sci U S A Date: 1991-02-15 Impact factor: 11.205

2. The prion protein gene is dispensable for the development of spongiform myeloencephalopathy induced by the neurovirulent Cas-Br-E murine leukemia virus.

Authors: P Jolicoeur; G Massé; D G Kay
Journal: J Virol Date: 1996-12 Impact factor: 5.103

3. Murine neurotropic retrovirus spongiform polioencephalomyelopathy: acceleration of disease by virus inoculum concentration.

Authors: B R Brooks; J R Swarz; O Narayan; R T Johnson
Journal: Infect Immun Date: 1979-02 Impact factor: 3.441

4. Oligodendrocytes are a major target of the toxicity of spongiogenic murine retroviruses.

Authors: Amanda C Clase; Derek E Dimcheff; Cynthia Favara; David Dorward; Frank J McAtee; Lindsay E Parrie; David Ron; John L Portis
Journal: Am J Pathol Date: 2006-09 Impact factor: 4.307

5. Noninflammatory spongiform polioencephalomyelopathy caused by a neurotropic temperature-sensitive mutant of Moloney murine leukemia virus TB.

Authors: J F Zachary; C J Knupp; P K Wong
Journal: Am J Pathol Date: 1986-09 Impact factor: 4.307

6. Disparate regions of envelope protein regulate syncytium formation versus spongiform encephalopathy in neurological disease induced by murine leukemia virus TR.

Authors: Samuel L Murphy; Marek J Honczarenko; Natalie V Dugger; Paul M Hoffman; Glen N Gaulton
Journal: J Virol Date: 2004-08 Impact factor: 5.103

10. Characterization of a progressive neurodegenerative disease induced by a temperature-sensitive Moloney murine leukemia virus infection.

Authors: J A Bilello; O M Pitts; P M Hoffman
Journal: J Virol Date: 1986-08 Impact factor: 5.103