Characterization and Evaluation of Cell-Penetrating Activity of Brevinin-2R: An Amphibian Skin Antimicrobial Peptide

Natural peptides have been the source of some important tools to address challenges in protein therapy of diseases. Bypassing cell plasma membrane has been a bottleneck in the intracellular delivery of biomolecules. Among others, cell-penetrating peptides (CPPs) provide an efficient strategy for intracellular delivery of various cargos. Brevinin-2R peptide is an antimicrobial peptide isolated from the skin secretions of marsh frog, Rana ridibunda with semi-selective anticancer properties. Here, we investigated cell-penetrating properties of Brevinin-2R peptide and its ability to deliver functional protein cargos. Bioinformatics studies showed that Brevinin-2R is a cationic peptide with a net charge of + 5 with an alpha-helix structure and a heptameric ring at the carboxylic terminal due to disulfide bond between C19 and C25 amino acids and a hinge region at A10. To evaluate the ability of this peptide as a CPP, beta-galactosidase protein and GFP were transfected into HeLa cells. The entry pathway of the peptide/protein complex into the cell was investigated by inhibiting endocytic pathways at 4 degrees C. It was observed that Brevinin-2R can efficiently transfer beta-galactosidase and GFP with 21% and 90% efficacy, respectively. Brevinin-2R opts for endocytosis pathways to enter cells. The cytotoxicity of this peptide against HeLa cells was studied using MTT assay. The results showed that at the concentration of 131.5 mu g/ml of Brevinin-2R peptide, the proliferation of 50% of HeLa cells was inhibited. The results of this study suggest that Brevinin-2R peptide can act as a CPP of natural origin and low cytotoxicity.