Cellular uptake of Aib-containing amphipathic helix peptide.

Cell-penetrating peptides (CPPs) are useful tools for the delivery of hydrophilic bioactive molecules, such as peptides, proteins, and oligonucleotides, across the cell membrane. To realize the delivery of therapeutic macromolecules by CPPs, the CPPs are required to show resistance to protease and no cytotoxicity. In order to produce potent non-toxic and protease-resistant CPPs with high cellular uptake, we designed an amphipathic helix peptide using α-aminoisobutyric acid (Aib, U) and named it MAP(Aib). In the MAP(Aib) molecule, five Aib residues are aligned on the hydrophobic face of the helix and five lysine (K) residues are aligned on the hydrophilic face. MAP(Aib) showed potent resistance to trypsin and pronase compared with MAP, an amphipathic helix peptide formed by usual amino acids. Fluorescein-labeled MAP(Aib) efficiently traversed the A549 cell membrane, diffusing into the cytoplasm and slightly into the nucleus without exerting any cytotoxicity. In contrast, MAP was poorly taken up by the cell. These results indicate that the incorporation of Aib residues into CPPs markedly improves cellular uptake and MAP(Aib) may be a useful tool for the delivery of hydrophilic macromolecules.

Chiral selection in oligoadenylate formation in the presence of a metal ion catalyst or poly(U) template.

The lead ion-catalyzed oligomerization of 5'-phosphorimidazolides of D-, L- or racemic DL-adenosine (D-ImpA, L-ImpA and DL-ImpA) gave oligoadenylates up to a pentamer. The oligomers resulting from racemic ImpA were comparable in yields and length to those from chiral D- or L-ImpA. A complex mixture of homochiral and heterochiral oligomers was formed in the reaction from racemic ImpA. Total dimer product from racemic ImpA by the lead ion catalyst showed homochiral selectivity. The reaction catalyzed by uranyl ion yielded oligoadenylates up to 15mer from chiral D- or L-ImpA in over 95% yield. A complex mixture of isomeric oligoadenylates was formed from racemic DL-ImpA in the presence of uranyl ion catalyst in comparable yields to those from D- or L-ImpA. The analysis of the dimer product from DL-ImpA showed that the homochiral 2' -5' linked dimer was selectively formed. D-ImpA polymerized effectively on a poly(U) template, which is exclusively composed of D-uridine, yielding oligoadenylates up to a pentamer. In contrast, L-ImpA or racemic DL-ImpA polymerized far less efficiently on the poly(U) template, demonstrating that chiral selection takes place in the poly(U) template-directed oligoadenylate formation.