Effect of Basic Cell-Penetrating Peptides on the Structural, Thermodynamic, and Hydrodynamic Properties of a Novel Drug Delivery Vector, ELP[V5G3A2-150]

Elastin-like polypeptides (ELPs) are large, nonpolar polypeptides under investigation as components of a novel drug delivery system. ELPs are soluble at low temperatures, but they desolvate and aggregate above a transition temperature (TT). This aggregation is being utilized for targeting systemically delivered ELP–drug conjugates to heated tumors. We previously examined the structural, thermodynamic, and hydrodynamic properties of ELP[V5G3A2-150] to understand its behavior as a therapeutic agent. In this study, we investigate the effect that adding basic cell-penetrating peptides (CPPs) to ELP[V5G3A2-150] has on the polypeptide’s solubility, structure, and aggregation properties. CPPs are known to enhance the uptake of ELP into cultured cells in vitro and into tumor tissue in vivo. Interestingly, the asymmetric addition of basic residues decreased the solubility of ELP[V5G3A2-150], although below the TT we still observed a low level of self-association that increased with temperature. The ΔH of the aggre...