Vesicle-to-cytosol transport of disulfide-linked cargo mediated by an amphipathic cell-penetrating peptide.

The effect of linker stability on the intracellular localization and apoptotic activity of cytochrome c (Cyt c) conjugated to an amphipathic cell-penetrating peptide (CPP), model amphipathic peptide (MAP), was tested in HeLa cells. While conjugates linked with a stable thioether cross-linkage were only found in the vesicular compartment, a portion of the conjugate linked with a reducible disulfide bond was also detected in the cytosol. The apoptotic function of the reducible and non-reducible Cyt c-MAP conjugates was also evaluated quantitatively using the caspase 3 and annexin V/propidium iodide detection assays in the presence of a proteasome inhibitor used to inhibit cytosolic Cyt c degradation. Analysis for early phase apoptosis revealed that linker stability was important for biological activity. Only the reducible disulfide-linked Cyt c-MAP conjugate, and not free Cyt c or thioether-linked Cyt c-MAP, initiated apoptosis in proteasome-inhibited cells which correlated with the cytosolic localization profiles of the proteins. The co-treatment of disulfide-linked Cyt c-MAP with a disulfide reduction inhibitor decreased the amount of Cyt c delivered to the cytosol, which correlated with a lack of apoptotic activity. These findings indicated the presence of a vesicle-to-cytosolic delivery process for disulfide-linked MAP conjugates, which can be used to improve CPP-based drug delivery systems transporting cargo to cytosolic sites.

MAP-mediated nuclear delivery of a cargo protein.

Radiolabeled cytochrome c (Cyt c), either as a free protein or as cell penetrating peptide (CPP)-conjugates, was tested for cellular uptake and nuclear transport in Human embryonic kidney 293 (HEK293) cells and HeLa cells. Conjugation of Cyt c with either the amphipathic peptide model amphipathic peptide (MAP) or the cationic peptide oligoarginine via a disulfide linkage significantly increased the total internalization and nuclear localization of Cyt c in both cell lines, though to a greater extent following conjugation with MAP. The nuclear localization was also evaluated qualitatively by confocal laser scanning microscopy (CLSM). CLSM images depicted high amounts of colocalization of fluorescently labeled Cyt c-MAP and the nucleus in HEK293 cells. In addition, prevention of disulfide reduction at the cell surface, or comparison of reducible disulfide or non-reducible thioether MAP-conjugates, showed that maintenance of an intact conjugate using a stable linkage enhanced MAP-mediated nuclear delivery. Furthermore, nuclear transport of the MAP-cargo conjugate appears to be dependent on vesicle fusion events following internalization via endocytosis. The findings presented in this report demonstrate the MAP-mediated transport of a small protein such as Cyt c into the nuclear compartment, which can be used to improve current CPP-cargo delivery of macromolecules with nuclear biological functions.