Newly synthesized peptide,Ara-27, exhibits significant improvement in cell-penetrating ability compared to conventional peptides

Cell-penetrating peptides (CPPs) are short amino acid sequences known to act as a vehicle for enhancing the intracellular translocating efficiency of extracellular molecules. Although many groups have attempted to develop peptides with high cell-penetrating efficiencies, very few have demonstrated efficient cellular uptake of CPPs at low concentrations. Here, we describe a newly synthesized peptide derived from Arabidopsis, Ara-27, which exhibits significant improvement in cell-penetrating efficiency compared to existing CPPs. The cell-penetrating efficiency of Ara-27 was compared with the commonly used Tat-protein transduction domain (Tat-PTD) and membrane translocating sequence (MTS) in human dermal fibroblast (HDF) and human dental pulp stem cells (hDPSC). Cell-penetrating efficiency of fluorescein isothiocyanate (FITC)-labeled CPPs were assessed by flow cytometry and visualized by confocal microscopy. Flow cytometric analysis revealed >99% cell-penetrating efficiency for 2 μM Ara-27 in both HDF and hDPSC. In contrast, 2 μM Tat-PTD and MTS showed <10% cell-penetrating efficiency in both cells. In support, relative fluorescence intensities of FITC-labeled Ara-27 were around 8 to 22 times higher than those of Tat-PTD and MTS in both cells. Confocal analysis revealed internalization of 0.2 and 2 μM Ara-27 in both human cells, which was not observed for Tat-PTD and MTS at either concentration. In conclusion, this study describes a novel CPP, Ara-27, which exhibit significant improvement in intracellular uptake compared to conventional CPPs, without affecting cell viability. Thus, development of Ara-27 based peptides may lead to improved delivery of functional cargo such as small molecules, siRNA, and drugs for in vivo studies.