Michael R. Duncan scite author profile

Journal Cellular Physiology

Kirk

1979

It has been postulated that superoxide dismutase (SOD) protects cells from free radical-induced damage. In these experiments SOD specific activity was measured as established human diploid cell lines from various donor ages progressed through their in vitro lifespan. Significant elevations in activity occurred during the in vitro lifespans of cells from fetal and newborn donors, but no change in activity was detected during the lifespan of cells from an adult donor. In addition, a direct relationship between enzyme activity and donor age was detected with the following relative activities: adult greater than newborn greater than fetal. The possible relationship between these findings and the free radical theory of aging is discussed.

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Exit of human diploid cells from low serum quiescence

Robinson

Cell Biology International Reports

1982

Relationship of heat labile glucose‐6‐phosphate dehydrogenase and multiple molecular forms of the enzyme in senescent human fibroblasts

Journal Cellular Physiology

Guthrie

1977

Human fibroblasts derived from newborn foreskin and designated CF-3 were assayed for heat labile glucose-6-phosphate dehydrogenase (G6PD) when they had grown to confluency, as well as when they were arrested in an essentially nonmitotic state. Under both culture conditions there was an increase in heat labile G6PD (up to 25% of the total activity) as cells progressed through their in vitro lifespan; however, arrested cells exhibited less heat labile G6PD than did comparable growth controls (5-10% decrease). Acrylamide gel electrophoresis of crude G6PD preparations revealed three distinct bands of enzymatic activity. One of the bands was tentatively identified as the dimeric form of the enzyme and another as the tetrameric form. The tetrameric form was more heat sensitive, and the percent of the total activity of this form increased as the cells became senescent. The percent of total activity of the tetrameric form was comparable to the percent heat labile enzyme assayed at a given population doubling level. These results indicated that the observed increase in heat lability of G6PD with age may be due to a shift in equilibrium to the tetrameric form of the enzyme rather than the synthesis of aberrant enzyme molecules.

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The effects of histones in vitro age, and culture state on the digestion of DNA by micrococcal nuclease and deoxyribonuclease I

Whittle

Mechanisms of Ageing and Development

et al. 1983