%0 Journal Article %T A bioactive peptide analogue for myxoma virus protein with a targeted cytotoxicity for human skin cancer in vitro %A Nahlah M Almansour %A Elena Pirogova %A Peter J Coloe %A Irena Cosic %A Taghrid S Istivan %J Journal of Biomedical Science %D 2012 %I BioMed Central %R 10.1186/1423-0127-19-65 %X Cell cultures were treated with various concentrations of the peptides at different incubation intervals. Cellular morphological changes (apoptosis and necrosis) were evaluated using confocal laser scanning microscopy. The cytotoxic effects of RRM-MV on human skin cancer and normal human skin cells were quantitatively determined by cytotoxicity and cell viability assays. The effect on human erythrocytes was also determined using quantitative hemolysis assay. DNA fragmentation assay was performed to detect early apoptotic events in treated cancer cells. Furthermore, to investigate the possible cell signalling pathway targeted by the peptides treatment, the levels of p-Akt expression in skin cancer and normal cells were detected by immunoblotting.Our results indicate that RRM-MV has a dose-dependent toxic effect on cancer cells only up to 18£¿h. The immunoblotting results indicated that the RRM-MV slightly increased p-Akt expression in melanoma and carcinoma cells, but did not seem to affect p-Akt expression in normal skin cells.RRM-MV targets and lethally harms cancer cells and leaves normal cells unharmed. It is able to reduce the cancer cell viability, disrupting the LDH activity in cancer cells and can significantly affect cancer progression. Further investigation into other cell signalling pathways is needed in the process leading to the in vivo testing of this peptide to prove its safety as a possible effective treatment for skin cancer. %K RRM-MV %K Myxoma virus %K Bioactive peptide %K Melanoma %K Carcinoma %U http://www.jbiomedsci.com/content/19/1/65/abstract