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(Received for publication, June 22, 1995) Dithiocarbamates are metal-chelating compounds that can exert
either pro-oxidant or antioxidant effects in different situations. They
have recently been found to potently inhibit apoptotic cell death, an
activity attributed to their antioxidant action. However, when
thymocytes were exposed to pyrrolidine dithiocarbamate, an oxidation of
the glutathione pool occurred within 90 min. Longer incubation resulted
in cell shrinkage, chromatin fragmentation, glutathione depletion, and
eventual cell lysis, which is typical of apoptosis in these cells.
These changes were inhibited by inclusion of non-permeable metal
chelators in the incubation medium, suggesting that pyrrolidine
dithiocarbamate exerts its toxic effect by transporting a redox-active
metal into the cell. This was directly confirmed when sustained 8-fold
elevations of intracellular copper were detected after addition of
pyrrolidine dithiocarbamate. In agreement with this, supplementation of
the incubation medium with submicromolar concentrations of copper
significantly potentiated pyrrolidine dithiocarbamate toxicity. We
conclude that pyrrolidine dithiocarbamate exerts a powerful pro-oxidant
effect on thymocytes due to its ability to transport external
redox-active copper into cells. The resulting increase in glutathione
disulfide may also explain the temporary anti-apoptotic activity of
this compound described in other systems.
Volume 270,
Number 44,
Issue of November 3, 1995 pp. 26202-26208
©1995 by The American Society for Biochemistry and Molecular Biology, Inc.
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