Engineering a noncarrier to a highly efficient carrier peptide for noncovalently delivering biologically active proteins into human cells.

Noncovalent protein delivery into cells via peptide carriers is an emerging concept. Only a handful of such peptides are known. To address various limitations associated with protein delivery for therapeutic purposes, a greater number of different delivery peptides would be required. No general method exists for creating such peptides. By combining a sequence of 16 lysine residues (K16) with the signal peptide (SP) sequence of Kaposi's fibroblast growth factor (K-FGF), we have synthesized a peptide (K16SP) that efficiently and noncovalently delivers functionally intact proteins (immunoglobulin G molecules, beta-galactosidase, and green fluorescent protein) into mammalian cells. The peptides K16 and SP each alone did not show any noncovalent protein-carrying capacity. K16SP appears to be nontoxic to cells and three to four times more efficient than a commercially available peptide reagent. Our approach offers proof-of-concept of a general strategy for creating a diverse array of peptide carriers for eventual therapeutic applications.