Cell penetrating peptides: overview and applications to the delivery of oligonucleotides

Crossing biological barriers represents a major limitation for clinical applications of biomolecules such as nucleic acids, peptides or proteins. Cell penetrating peptides (CPP), also named protein transduction domains, comprise short and usually basic amino acids-rich peptides originating from proteins able to cross biological barriers, such as the viral Tat protein, or are rationally designed. They have emerged as a new class of non-viral vectors allowing the delivery of various biomolecules across biological barriers from low molecular weight drugs to nanosized particles. Encouraging data with CPP-conjugated oligonucleotides have been obtained both in vitro and in vivo in animal models of diseases such as Duchenne muscular dystrophy. Whether CPP-cargo conjugates enter cells by direct translocation across the plasma membrane or by endocytosis remains controversial. In many instances, however, endosomal escape appears as a major limitation of this new delivery strategy.