Dorothy A. Mooney scite author profile

Three deletion mutants of the structural protein region of the Semliki Forest virus (SFV) genome, including one which encompassed all the viral structural protein genes, induced apoptosis in BHK cells at 48 h after transfection, as shown by DNA laddering and TUNEL staining, as did the wild-type SFV4 RNA. A similar result was obtained for the SFV1 expression vector, which has a multicloning site inserted in place of the structural protein genes. However, in cells transfected with viral RNA containing a deletion of the nsP2 gene, neither viral RNA synthesis nor the induction of apoptosis occurred. Both SFV1 vector and wild-type SFV4 RNA induced apoptosis in human H358a lung carcinoma cells, which have a homozygous deletion of the p53 gene. It is concluded that the SFV vector encodes a function in the nonstructural coding region which induces p53-independent apoptosis and is dependent on viral RNA synthesis.

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Pathogenicity of Semliki Forest virus for the rat central nervous system and primary rat neural cell cultures: possible implications for the pathogenesis of multiple sclerosis

Atkins

Sheahan

Mooney

1990

Neuropathology Appl Neurobio

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The neurovirulent L10 strain of Semliki Forest virus (SFV) causes extensive neuronal damage in the central nervous system (CNS) of infected rats, and is probably the cause of death. The avirulent A7 and M9 strains do not cause extensive neuronal damage, but do induce immune-mediated CNS demyelination. In primary CNS cell cultures derived from rats, L10 multiplies more rapidly in neurons than avirulent strains, but infection with both virulent and avirulent strains causes depletion of oligodendrocytes from mixed glial cell cultures. It is proposed that the immune-mediated demyelination, which follows infection with avirulent strains, is induced by phagocytosis of myelin debris from infected oligodendrocytes, and the presentation of antigens derived from such debris to T-helper lymphocytes. Based on these and previous results, a scheme for the pathogenicity of defined strains of SFV is proposed. The applicability of this scheme to the understanding of human demyelinating disease such as multiple sclerosis is discussed.

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Semliki Forest virus-based vaccines: persistence, distribution and pathological analysis in two animal systems

Morris-Downes

Phenix

Smyth

et al. 2001

Vaccine

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Sequence analysis of the avirulent, demyelinating A7 strain of Semliki Forest virus.

Tarbatt

Glasgow

Mooney

et al. 1997

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The nonstructural region of the genome of the avirulent A7 strain of Semliki Forest virus (SFV) has been sequenced, so that the complete nucleotide sequence is available. Compared to the virulent SFV4 strain (produced from the infectious clone pSP6-SFV4), A7 contains 226 nucleotide changes in the translated region, which result in 47 amino acid changes. The 5h nontranslated region has two nucleotide changes, and the 3h nontranslated region is longer in A7 than SFV4, and contains divergent

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Multiplication of rubella and measles viruses in primary rat neural cell cultures: relevance to a postulated triggering mechanism for multiple sclerosis

Atkins

Mooney

Fahy

et al. 1991

Neuropathology Appl Neurobio

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Rubella virus multiplied to low titre and produced a partial cytopathic effect in rat glial cell cultures. Anti-galactocerebroside staining showed that this cytopathic effect involved the disintegration of oligodendrocytes. A similar effect was produced following infection of myelinating neural cell cultures with rubella virus, but virus multiplication could not be detected in pure neuron cultures. Measles virus was found to multiply and produce a cytopathic effect in primary cultures of both neurons and glial cells. These results are discussed in relation to the ability of measles and rubella viruses to trigger human multiple sclerosis.

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Dorothy A. Mooney

The Semliki Forest virus vector induces p53-independent apoptosis.

Pathogenicity of Semliki Forest virus for the rat central nervous system and primary rat neural cell cultures: possible implications for the pathogenesis of multiple sclerosis

Semliki Forest virus-based vaccines: persistence, distribution and pathological analysis in two animal systems

Sequence analysis of the avirulent, demyelinating A7 strain of Semliki Forest virus.

Multiplication of rubella and measles viruses in primary rat neural cell cultures: relevance to a postulated triggering mechanism for multiple sclerosis

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