Certain short peptides, which are able to translocate across cell membranes with a low lytic activity, can be useful as carriers (vectors) for hydrophilic molecules. We have studied three such cell penetrating peptides: pAntp ('penetratin'), pIsl and transportan. pAntp and pIsl originate from the third helix of homeodomain proteins (Antennapedia and Isl-1, respectively). Transportan is a synthetic chimera (galanin and mastoparan). The peptides in the presence of various phospholipid vesicles (neutral and charged) and SDS micelles have been characterized by spectroscopic methods (fluorescence, EPR and CD). The dynamics of pAntp were monitored using an N-terminal spin label. In aqueous solution, the CD spectra of the three peptides show secondary structures dominated by random coil. With phospholipid vesicles, neutral as well as negatively charged, transportan gives up to 60% alpha-helix. pAntp and pIsl bind significantly only to negatively charged vesicles with an induction of around 60% beta-sheet-like secondary structure. With all three peptides, SDS micelles stabilize a high degree of alpha-helical structure. We conclude that the exact nature of any secondary structure induced by the membrane model systems is not directly correlated with the common transport property of these translocating peptides.
Peptide nucleic acid (PNA) is a promising tool in biomedical research. PNA oligomers can be synthesized according to peptide synthesis protocols, but they hybridize to complementary RNA and DNA strands like oligonucleotides. The main hindrance to the use of PNA oligomers has been their poor uptake by cells. Fortunately, this limitation can be overcome by the application of peptide vectors. Different strategies are used to conjugate peptide vectors and PNA oligomers. In this chapter we discuss different types of delivery vectors (receptor ligands and cell-penetrating peptides) and strategies for the design and synthesis of PNA-vector conjugates. A protocol for the delivery of antisense PNA oligomer-cell-penetrating peptide conjugates is also described.
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