Interactions between Endohedral Metallofullerenesand Proteins: The Gd@C60–Lysozyme Model

摘要

Endohedral metallofullerenes (EMFs) have great potential as radioisotope carriers for nuclear medicine and as contrast agents for X-ray and magnetic resonance imaging. EMFs have still important restrictions for their use due to low solubility in physiological environments, low biocompatibility, nonspecific cellular uptake, and a strong dependence of their peculiar properties on physiological parameters, such as pH and salt content. Conjugation of the EMFs with proteins can overcome many of these limitations. Here we investigated the thermodynamics of binding of a model EMF (Gd@C60) with a protein (lysozyme) that is known to act as a host for the empty fullerene. As a rule, even if the shape of an EMF is exactly the same as that of the related fullerene, the interactions with a protein are significantly different. The estimated interaction energy (ΔGbinding) between Gd@C60 and lysozyme is −18.7 kcal mol^–1, suggesting the possibility of using proteins as supramolecular carriers for EMFs. π–π stacking, hydrophobic interactions, surfactant-like interactions, and electrostatic interactions govern the formation of the hybrid between Gd@C60 and lysozyme. The comparison of the energy contributions to thebinding between C60 or Gd@C60 and lysozyme suggeststhat, although shape complementarity remains the driving force ofthe binding, the presence of electron transfer from the gadoliniumatom to the carbon cage induces a charge distribution on the fullerenecage that strongly affects its interaction with the protein.