Endosome trapping limits the efficiency of splicing correction by PNA-oligolysine conjugates

Abstract

Splicing correction by steric-blocking oligonucleotides (ON) might lead to important clinical applications but requires efficient delivery to cell nuclei. The conjugation of short oligolysine tails has been used to deliver a correcting peptide nucleic acid (PNA) sequence in a positive readout assay in which ON hybridization to the cryptic splice site is strictly required for the expression of a luciferase reporter gene. We have investigated the mechanism of cellular uptake and the efficiency of a (Lys) 8-PNA-Lys construction in this model system. Cell uptake is temperature-dependent and leads to sequestration of the conjugate in cytoplasmic vesicles in keeping with an endocytic mechanism of internalization. Accordingly a significant and sequence-specific splicing correction is achieved only in the presence of endosome-disrupting agents as chloroquine or 0.5 M sucrose. These endosome-disrupting agents do not affect the activity of free PNA, and do not increase (Lys) 8-PNA-Lys uptake.