Proliferation dynamics in cultured skin fibroblasts from Down syndrome subjects

With a view to better understanding the role of oxidant/antioxidant variables in proliferation dynamics of somatic cells, we explored the relationships among superoxide dismutase (SOD) activity, glutathione peroxidase (Gpx) activity, reactive oxygen intermediates (ROI), and indices of cellular proliferation and senescence in cultured fibroblasts from Down syndrome and normal donors. We found that Down syndrome cells had a significantly slower proliferative rate, but attain replicative senescence at similar population doubling (PD) as control cells. Irrespective of donor origin, the number of PD until replicative senescence was positively correlated with Gpx activity (r = 0.784, P = 0.007). In addition, the presence of exogenous catalase in the growth medium significantly extended the number of PD until replicative senescence (P = 0.011). The loss of telomere repeats per PD was not different between Down syndrome cells and controls. However, SOD activity was inversely correlated with the loss of telomere repeats per PD. Collectively, these findings suggest that replicative senescence ultimately relates to mechanisms downstream to SOD (i.e., Gpx and catalase) and confirmed previous observations about inverse relationships between SOD activity and telomere repeat loss per cellular replication.