Sensitivity of mitochondrial DNA depleted ρ0 cells to H2O2 depends on the plasma membrane status.

To clarify the relationship between mitochondrial DNA (mtDNA)-depleted ρ0 cells and the cellular sensitivity to hydrogen peroxide (H2O2), we established HeLa and SAS ρ0 cell lines and investigated their survival rate in H2O2, radical scavenging enzymes, plasma membrane potential status, and chronological change in intracellular H2O2 amount under the existence of extracellular hydrogen peroxide compared with the parental cells. The results revealed that ρ0 cells had higher sensitivity to H2O2 than their parental cells, even though the catalase activity of ρ0 cells was up-regulated, and the membrane potential of the ρ0 cells was lower than their parental cells. Furthermore, the internal H2O2 amount significantly increased only in ρ0 cells after 50 μM H2O2 treatment for 1 h. These results suggest that plasma membrane status of ρ0 cells may cause degradation, and the change could lead to enhanced membrane permeability to H2O2. As a consequence, ρ0 cells have a higher H2O2 sensitivity than the parental cells.