Influence of oxygen tension, pro-oxidants and antioxidants on the formation of lipid peroxidation products (lipofuscin) in individual cultivated human glial cells.

Cultivated human glial cells, kept in a state of density-dependent inhibition of growth, accumulate age pigment (lipofuscin) within their lysosomal vacuomes which has the same characteristics as the age pigment observed in vivo. The rate of formation and accumulation of lipofuscin is greatly accelerated under the conditions of routine cell culture in comparison to the in vivo event. Lipofuscin is generally considered to be composed of products of lipid peroxidation and thus it would be reasonable to suggest that factors which influence lipid peroxidation would also alter the rate of lipofuscin formation and accumulation. Human glial cells were grown in the presence of various oxygen concentrations (5%, 10%, 20%, 40%) or exposed to pro-oxidants (vitamin C/Fe) or antioxidants (vitamin E/Se, dimethylsulfoxide, reduced glutathione) treatments in the presence of normal oxygen concentration (20%). It was found that these factors can modulate (accelerate or decrease) the rate of formation of lipofuscin. This study thus provides: (1) important supportive evidence for the lipid peroxidation origin of lipofuscin, (2) a useful model system for studying the effect of lipofuscin accumulation on lysosomal function and cell growth kinetics, (3) evidence that our culture conditions are far from ideal: oxygen concentration may drastically alter rates of lipofuscin formation and accumulation. Cell culture technique, as we know it today, may benefit from more closely controlled oxygen tensions, i.e. by reducing oxygen to levels that more closely approximate conditions in vivo.