Cell‐surface thiols affect cell entry of disulfide‐conjugated peptides

Cell‐penetrating peptides (CPPs) can cross the cell membrane and are widely used to deliver bioactive cargoes inside cells. The cargo and the CPP are often conjugated through a disulfide bridge with the common acceptation that this linker is stable in the extracellular biological medium and should not perturb the internalization process. However, with the use of thiol‐specific reagents combined with mass spectrometry (as a quantitative method to measure intracellular concentrations of peptides) and confocal microscopy (as a qualitative method to visualize internalized pep‐tides) analyses, we could show that, depending on the peptide sequence, thiol/disulfide exchange reactions could happen at the cell surface. These exchange reactions lead to the reduction of disulfide conjugates. In addition, it was observed that not only disulfide‐ but also thiol‐containing peptides could cross‐react with cell‐surface thiols. The peptides cross‐linked by thiolcontaining membrane proteins were either trapped in the membrane or further internalized. Therefore, a new route of cellular uptake was unveiled that is not restricted to CPPs: a protein kinase C peptide inhibitor that is not cell permeant could cross cell membranes when an activated cysteine (with a 3‐nitro‐2‐pyridine‐sulfenyl moiety) was introduced in its sequence.— Aubry, S., Burlina, F., Dupont, E., Delaroche, D., Joliot, A., Lavielle, S., Chassaing, G., Sagan, S. Cell‐surface thiols affect cell entry of disulfide‐conjugated peptides. FASEB J. 23, 2956–2967 (2009). www.fasebj.org