A molecular mechanism for mimosine-induced apoptosis involving oxidative stress and mitochondrial activation.

Authors

Hallak, Maher; Vazana, Liat; Shpilberg, Ofer; Levy, Itai; Mazar, Julia; Nathan, Ilana

Publication Year 2008
Journal Apoptosis: An International Journal on Programmed Cell Death
Chapter
Pages 147-155
Volume 13
Issue 1
Issn
Isbn
PMID 18058236.0
PMCID
DOI 10.1007/s10495-007-0156-7
URL http://dx.doi.org/10.1007/s10495-007-0156-7

Mimosine, a non-protein amino acid, is mainly known for its action as a reversible inhibitor of DNA replication and, therefore, has been widely used as a cell cycle synchronizing agent. Recently, it has been shown that mimosine also induces apoptosis, as mainly reflected in its ability to elicit characteristic nuclear changes. The present study elucidates the mechanism underlying mimosine's apoptotic effects, using the U-937 leukemia cell line. We now demonstrate that in isolated rat liver mitochondria, mimosine induces mitochondrial swelling that can be inhibited by cyclosporine A, indicative of permeability transition (PT) mega-channel opening. Mimosine-induced apoptosis was accompanied by formation of hydrogen peroxide and a decrease in reduced glutathione levels. The apoptotic process was partially inhibited by cyclosporine A and substantially blocked by the antioxidant N-acetylcysteine, suggesting an essential role for reactive oxygen species formation during the apoptotic processes. The apoptosis induced by mimosine was also accompanied by a decrease in mitochondrial membrane potential, cytochrome c release and caspase 3 and 9 activation. Our results thus imply that mimosine activates apoptosis through mitochondrial activation and formation of H2O2, both of which play functional roles in the induction of cell death.