Assessing the Cellular Uptake, Endosomal Escape, and Cytosolic Entry Efficiencies of Cyclic Peptides.

Intracellular biologics such as cyclic peptides are an emerging class of macromolecular drugs that are either intrinsically cell permeable or can be effectively delivered into the cell interior to modulate the activity of previously intractable drug targets. They generally enter the mammalian cell by endocytosis mechanisms and are initially localized inside the endosomes. They subsequently escape from the endosomes (and/or lysosomes) into the cytosol with varying efficiencies. In this chapter, we provide the detailed protocol for a flow cytometry-based assay method to quantitate the overall cellular uptake, endosomal escape, and cytosolic entry efficiencies of biomolecules (e.g., linear and cyclic peptides, proteins, and nucleic acids), by using cell-penetrating peptides as an example. The scope of applicability, strengths, and weaknesses of this assay are also discussed.