Hydrogen peroxide produced by Aplysia ink toxin kills tumor cells independent of apoptosis via peroxiredoxin I sensitive pathways.

Marine snails of the genus Aplysia possess numerous bioactive substances. We have purified a 60 kDa protein, APIT (Aplysia punctata ink toxin), from the defensive ink of A. punctata that triggers cell death with profound tumor specificity. Tumor cell death induced by APIT is independent of apoptosis but is characterized by the rapid loss of metabolic activity, membrane permeabilization, and shrinkage of nuclei. Proteome analysis of APIT-treated tumor cells indicated a modification of peroxiredoxin I, a cytoplasmic peroxidase involved in the detoxification of peroxides. Interestingly, knockdown of peroxiredoxin I expression by RNA interference sensitized cells for APIT-induced cell death. APIT induced the death of tumor cells via the enzymatic production of H2O2 and catalase completely blocked APITs' activity. Our data suggest that H2O2 induced stress and the modulation of peroxiredoxins might be a promising approach for tumor therapy.

Requirement of caspase-mediated cleavage of c-Abl during stress-induced apoptosis.

c-Abl protein tyrosine kinase plays an important role in cell cycle control and apoptosis. Furthermore, induction of apoptosis correlates with the activation of c-Abl. Here, we demonstrate the cleavage of c-Abl by caspases during apoptosis. Caspases separate c-Abl into functional domains including a Src-kinase, a fragment containing nuclear import sequences, a fragment with an actin-binding domain and nuclear export sequence. Caspase cleavage increases the kinase activity of c-Abl as demonstrated by in vitro kinase assays as well as by auto- and substrate phosphorylation. Cells in which c-Abl expression was knocked down by RNA interference resisted cisplatin- but not TNFalpha-induced apoptosis. A similar selective resistance against cisplatin-induced apoptosis was observed when cleavage resistant c-Abl was overexpressed in treated cells. Our data suggest the selective requirement of c-Abl cleavage by caspases for stress-induced, but not for TNFalpha-induced apoptosis.