Protein Delivery by the Cell-Penetrating Peptide YTA2

Abstract

In most cases, the transport of cell-penetrating peptide (CPP) with a cargo molecule over the plasma membrane requires a cross-linking of the cargo molecule to the peptide. Lately, a method of cargo delivery, coincubation with CPP, has been applied. We have studied uptake and toxicity of the CPP, YTA2, in the Bowes human melanoma cell line and human MDA-MB-231 breast cancer cell line and compared the results with known cell-penetrating peptides. The results show that fluoresceinyl YTA2 is taken up by the Bowes cells with 3.23 nmol/mg protein and shows low membrane toxicity to the cells with an EC50 of 60 μM. Furthermore, we show that YTA2 is capable of delivering cargo proteins, such as β-galactosidase and tetramethyl rhodamine iso-thiocyanate (TRITC) labeled streptavidin into cells by coincubation. The delivery of TRITC-labeled streptavidin was quantified to 42.4 pmol streptavidin/mg protein. The delivery of proteins into the cells by mere coincubation is an advantage, since the chemical coupling between the CPP and the cargo molecule, which adds time-consuming synthesis and purification steps, can be omitted. In addition, the flexibility in CPP cargo delivery is increased.