Lead exposures increases oxidative stress in serum deprived E14 mesencephalic cultures. Role of metallothionein and glutathione.

E14 mesencephalic cultures grown 6 days in Neurobasal Medium containing 10% horse serum consist of differentiated neurons and astroglia. In these cultures, glutathione and metallothionein-I/II are enriched in astrocytes and play an important role in heavy metal scavenging and oxidative stress response. A 24 h exposure to 25 micro M Pb, in serum-containing medium, elevated the glutathione content by more than twofold and increased the metallothionein I/II-immunolabeled protein band. In contrast, exposure to 3 to 25 micro M Pb is serum-free medium increased Pb uptake by cells 2 to 4-times above the levels found in 10% serum-containing medium, reduced the glutathione level and obliterated the metallothionein-I/II protein band. The rapid decrease of metallothionein-I/II and glutathione levels in serum-free medium implies that their regulation may depend on a serum factor operative in inducing immediate early genes. Exposure to 6 micro M Pb in serum-free or in B27-supplemented medium increased the carbonyl content of several protein bands above control levels indicating that under conditions that curtail metallothionein induction Pb exposure causes increased oxidative stress.