Ascorbic acid induces lipid peroxidation on neuroectodermal SK-N-LO cells with high endogenous ferritin content and loaded with MAb-ferritin immunoconjugates.

Neuroblasma-and other malignant cells often contain elevated amounts of iron-rich ferritin and H2O2 and may therefore be a potential target for pro-oxidative effects of ascorbic acid (AA), generating cytotoxic products e.g. by lipid peroxidation (LPO). The influence of H2O2 and iron, either in its free form or bound to ferritin, on AA induced LPO was first investigated using erythrocyte ghosts as a model system. Results of these experiments showed that AA induced LPO not only in the presence of free available iron but also in the presence of ferritin. Similarly, AA induced significant LPO in neuroectodermal SK-N-LO cells with elevated intracellular ferritin levels. These LPO promoting effects of ferritin in the presence of AA on SK-N-LO cells could also be observed using ferritin-immunoconjugates: for this purpose, ferritin was bound to human monoclonal antibodies (MAb-ferritin) recognizing ganglioside GD2 which is present in large quantities on cell surfaces of SK-N-LO and many neuroblastoma cells. We conclude that the pro-oxidative effects of AA could be exploited in the treatment of ferritin rich neuroblastoma in combination with chemotherapy or with MAb-ferritin immunoconjugates.

Ascorbic-acid-mediated iron release from cellular ferritin and its relation to the formation of DNA strand breaks in neuroblastoma cells.

Ascorbic acid at pharmacologically attainable concentrations effectively inhibited the growth of the catecholamine-positive neuroblastoma cell line SK-N-SH; it inhibited LS cells to a smaller extent and catecholamine-negative SK-N-LO cell growth least effectively. In all three cell lines high concentrations of H2O2 were found. Since ascorbic acid was shown to release iron from ferritin in vitro and to keep it in the reduced state, we suggested that it acted as a pro-oxidant in ferritin-rich neuroblastoma cells in the presence of H2O2 and Fe2+ (Fenton reaction), implying iron release from cellular ferritin. We show here that iron could be mobilized from cellular ferritin by 1 mM ascorbic acid in iron-59-preloaded SK-N-SH and LS cells, but not in SK-N-LO cells. In agreement with these results, DNA strand break formation by ascorbate was only observed in SK-N-SH and LS cells. In SK-N-LO cells, DNA strand breaks could be induced by a combination of 1 mM ascorbic acid and 100 microM H2O2. Since cell-damaging effects caused by chemotherapy further facilitate iron release from ferritin, we conclude that ascorbate could be a powerful enhancer of some cytostatic drugs in neuroblastoma therapy.

Release of iron from ferritin by 6-hydroxydopamine under aerobic and anaerobic conditions.

6-hydroxydopamine (6-OHDA) proved to be a very effective agent for iron release from ferritin. Iron release was enhanced in the presence of SOD, catalase and under anaerobic conditions. Ascorbic acid, a well known agent able to release iron from ferritin, increased the amount of released iron in more than an additive manner when used in combination with 6-OHDA. Similar to 6-OHDA, 6-hydroxydopa (Topa) and 1,2,4-benzenetriol were also able to release iron in large amounts; in contrast, catecholamines and other benzenediols were comparatively ineffective.