Serum proteins affect the in vivo fate and cellular uptake
of arginine-rich
cell-penetrating peptides (CPPs) and drugs delivered by CPPs. Although
the binding of CPPs to serum proteins may possibly reduce their cellular
uptake to some extent, it may also prolong their circulation half-life
in vivo. We aimed to identify novel binding proteins of arginine-rich
CPPs in serum to better understand their in vivo fate and develop
more sophisticated drug delivery systems using CPPs. Isothermal titration
calorimetry analysis suggests that albumin, the most abundant protein
in serum, binds to d-forms of oligoarginine; however, the
dissociation constants are several tens of a micromolar. Candidate
proteins with the potential of binding to arginine-rich CPPs in serum
were then explored using nondenaturing polyacrylamide gel electrophoresis
followed by mass spectrometry analysis. Studies using fluorescence
correlation spectroscopy determined hemopexin as a potential binding
partner of d-forms of arginine-rich CPPs, including d-octaarginine (r8) and the d-form of the peptide, corresponding to HIV-1 Rev (34–50),
with dissociation constants of submicromolar to micromolar range.
Using flow cytometry and a split-luciferase-based system, the promotion
effect of hemopexin on the total cellular uptake and cytosolic localization
of cargos conjugated with these CPPs was confirmed. Therefore, this
study elucidated hemopexin as a potential binding partner of d-arginine-rich CPPs that may affect their in vivo fate and cellular
uptake.