Cytotoxic Activity of a Tumor Protease-Activated Pore-Forming Toxin

Equinatoxin II is a pore forming toxin produced by the sea anemone Actinia equina. It is able to kill very unspecifically most cell types by the membrane-perturbing action of an amphiphilic α-helix located at its N-terminal. A normally active N-terminal mutant, containing one single cys in the amphi...

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Bibliographic Details
Published in:Bioconjugate chemistry Vol. 16; no. 2; pp. 369 - 376
Main Authors: Potrich, C, Tomazzolli, R, Dalla Serra, M, Anderluh, G, Malovrh, P, Maček, P, Menestrina, G, Tejuca, M
Format: Journal Article
Language:English
Published: United States American Chemical Society 01-03-2005
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Summary:Equinatoxin II is a pore forming toxin produced by the sea anemone Actinia equina. It is able to kill very unspecifically most cell types by the membrane-perturbing action of an amphiphilic α-helix located at its N-terminal. A normally active N-terminal mutant, containing one single cys in the amphiphilic α-helix, becomes totally inactive when it is bound to avidin via a biotinylated linker. By choosing, as a linker, a peptide containing a tumor protease cleavage site, we were able to construct an enzymatically activable conjugate which should be selective for tumor cells. The introduced cleavage site was designed in order to be digested by both cathepsin B and matrix metalloproteases (MMPs). We confirmed that this conjugate could be activated in vitro by cathepsin B and MMPs. After having measured the enzymatic activity of fibrosarcoma and breast carcinoma cells, we analyzed the cytotoxic effect of the conjugate on the same lines and on human red blood cells (HRBC) as controls. We found that the conjugate was activated, at least in part, by the tumor cell lines used, whereas it was inactive on HRBC. That the activation process was dependent on the enzymatic action of cathepsin B and MMPs, was indicated by three lines of evidence:  (1) binding occurred normally on all type of cells including HRBC which however were insensitive being devoid of enzymes; (2) the cytotoxic effect correlated with the amount of cathepsin B activity expressed by the cells; (3) conjugate activation was reduced by specific inhibitors of cathepsin B and MMPs. These results demonstrate the possibility of tumor cell killing by a pore-forming toxin conjugate specifically activated by tumor proteases.
Bibliography:ark:/67375/TPS-5L914C4X-1
istex:1B70796F052EB41FE9A56D1399D1BB89912D2841
ISSN:1043-1802
1520-4812
DOI:10.1021/bc049873z