A few Bacillus thuringiensis Cry proteins, known as parasporins, have demonstrated cell proliferation inhibition of human cancer cells in vitro after protease activation. In this work, eight peptides derived from the Cry11Bb protoxin produced by B. thuringiensis subsp. medellin were selected and evaluated to investigate their membrane permeabilization and cytolytic activities, using red blood cells and cancer cell lines A549, MCF-7 and Caco-2, respectively. The most active peptides permeabilized red blood cells in a membrane potential-dependent manner. Half maximal inhibitory concentration in cancer cells was in the range 0.78-7.63 μM. At the same time, at peptides concentration of 25 μM, the hemolysis percentage varied in the range of 4.6-32.4%. The peptides BTM-P1 and BTM-P4 in D form had the lowest IC50 values on the MCF-7 cell line and they are considered as the most promising peptides among the evaluated. Fluorescence microscopy using AnnexinV-FLUOS staining indicates that the possible cause of MCF-7 cell death by peptide BTM-P1, is apoptosis. Real time PCR analysis showed an increased transcription of p53 in MCF-7 cells, thus confirming the probable pro-apoptotic effect of the peptide BTM-P1. In general, this study suggests that the cytolytic activity of the polycationic peptides derived from the Cry11Bb protoxin could be mediated by a pro-apoptotic mechanism that might include potential-dependent membrane permeabilization. Further studies might be accomplished to establish whether the peptides are cytolytic to other cancer cell lines and to solid tumors.
Keywords: Bacillus thuringiensis; Cell apoptosis; Cell swelling; Peptides; Plasma membrane potential.
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