Margaret M. McGee scite author profile

Margaret M. McGee

4Publications

217Citation Statements Received

86Citation Statements Given

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286

210

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Affiliations

University College Dublin, Trinity College Dublin, Deaconess Hospital

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The Semliki Forest virus vector induces p53-independent apoptosis.

Glasgow

McGee²,

Tarbatt³

et al. 1998

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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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Death mechanisms in cultured cells infected by Semliki Forest virus.

Glasgow

McGee

Sheahan

et al. 1997

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We have investigated the induction of cell death in cultured cells by the virulent SFV4 and avirulent A7 strains of Semliki Forest virus (SFV). In BHK cells, death occurred by a typical apoptotic mechanism, as did the death of oligodendrocytes in glial cell cultures. For cerebellar neuron cultures, virusinduced death was due to necrosis. Although the SFV4 and A7 strains did not differ in the mechanism of induction of cell death, the virulent SFV4 strain did multiply to a higher titre in cultured neurons than the avirulent A7 strain. This is consistent with previous animal studies which indicate that the virulence of SFV strains is controlled by rapidity of multiplication in the CNS, leading to a lethal threshold of damage, rather than differential cell tropism or cell death mechanisms. The immunemediated demyelination induced by avirulent strains may be triggered by apoptosis of oligodendrocytes, the consequences of which are obscured by death for virulent strains.Cell death mechanisms are an important component of pathogenesis in virus infections, although the mechanisms of induction of cell death are not well understood. The fate of infected cells, especially cells of the central nervous system (CNS), is of critical importance to mortality and morbidity in virus disease. A number of animal models of virus neuropathogenesis have been investigated in an attempt to define events which determine virulence (Atkins et al., 1994).One such model is infection of mice and rats by the alphavirus Semliki Forest virus (SFV ; Atkins et al., 1985). SFV causes fatal encephalitis following infection by virulent strains and immune-mediated demyelination following infection by avirulent strains. Virulent strains grow to high titre in the CNS and induce fatal damage to neurons. In contrast, avirulent strains multiply slowly, causing less neuronal damage, and are cleared from the CNS by immune intervention (Atkins &

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The quantitative determination of phenylalanine hydroxylase in rat tissues. Its developmental formation in liver

McGee

Greengard

Knox

1972

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A sensitive method was developed for determining the phenylalanine hydroxylase activity of crude tissue preparations in the presence of optimum concentrations of the 6,7-dimethyl-5,6,7,8-tetrahydropterin cofactor (with ascorbate or dithiothreitol to maintain its reduced state) and substrate. Tissue distribution studies showed that, in addition to the liver, the kidney also contains significant phenylalanine hydroxylase activity, one-sixth (in rats) or half (in mice) as much per g as does the liver. The liver and the kidney enzyme have similar kinetic properties; both were located in the soluble phase and were inhibited by the nucleo-mitochondrial fraction. Phenylalanine hydroxylase, like most rat liver enzymes concerned with amino acid catabolism, develops late. On the 20th day of gestation, the liver (and the kidney) is devoid of phenylalanine hydroxylase and at birth contains 20% of the adult activity. During the second postnatal week of development, when the phenylalanine hydroxylase activity was about 40% of the adult value, an injection of cortisol doubled this value. Cortisol had no significant effect on phenylalanine hydroxylase in adult liver or on phenylalanine hydroxylase in kidney at any age.

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Liver phenylalanine hydroxylase activity in relation to blood concentrations of tyrosine and phenylalanine in the rat

McGee

Greengard

Knox

1972

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The plasma concentration of phenylalanine and tyrosine decreases in normal rats during the first few postnatal days; subsequently, the concentration of phenylalanine remains more or less constant, whereas that of tyrosine exhibits a high peak on day 13. The basal concentrations of the two amino acids were not altered by injections of thyroxine or cortisol, except in 13-day-old rats, when an injection of cortisol decreased the concentration of tyrosine. In young rats (13-15 days old), treatment with cortisol increased the activity of phenylalanine hydroxylase in the liver (measured in vitro) and accelerated the metabolism of administered phenylalanine: the rate constant of the disappearance of phenylalanine from plasma and the initial increase in tyrosine in plasma correlated quantitatively with the activity of phenylalanine hydroxylase in the liver. In adult rats, the inhibition of this enzyme (attested by assay in vitro) by p-chlorophenylalanine resulted in a proportionate decrease in tyrosine formation from an injection of phenylalanine. However, the quantitative relationship between liver phenylalanine hydroxylase activity and phenylalanine metabolism within the group of young rats was different from that observed among adult rats.

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Margaret M. McGee

The Semliki Forest virus vector induces p53-independent apoptosis.

Death mechanisms in cultured cells infected by Semliki Forest virus.

The quantitative determination of phenylalanine hydroxylase in rat tissues. Its developmental formation in liver

Liver phenylalanine hydroxylase activity in relation to blood concentrations of tyrosine and phenylalanine in the rat

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