Nanoassemblies with Gd-chelating lipids (GMO@DTPA-BSA-Gd) as a potential new type of high molecular weight contrast agents.

Self-assembled lipid nanoparticles containing Gd-chelating lipids are a new type of positive magnetic resonance imaging contrast agents (MRI CAs). High molecular weight imposes reduced molecular reorientation (τ_r) and corresponding longer reorientation correlation times (τ_c), finally resulting in overall high relaxivity (r₁) of such contrast agents. Therefore, we report nanoassemblies based on two types of amphiphile molecules: glyceryl monooleate (GMO) as a matrix embedded with DTPA-bis(stearylamide) and its gadolinium salt (DTPA-BSA-Gd) as a Gd-chelating lipid, stabilized by surfactant Pluronic F127 molecules. The loading of DTPA-BSA-Gd into the GMO matrix was investigated at low (5% w/w) and high (30, 40, 50% w/w) contents. Small angle X-ray scattering (SAXS), cryogenic transmission electron microscopy (cryo-TEM) and dynamic light scattering (DLS) results show that although the nanoassembly of both amphiphile molecules within the nanoparticle is disturbed in terms of the formed phases, this composition ensures their colloidal stability. In nanoparticles with low DTPA-BSA-Gd contents, the assembly results in a cubic diamond phase that is co-existing with a fraction of liposomes. For high DTPA-BSA-Gd contents, swelling of the structure occurs such that the initially formed primitive cubic phase transforms toward a lamellar phase in the nanoassemblies. Results from inductively coupled plasma mass spectrometry (ICP-MS) indicate that for almost all systems, the loading efficiency (LE) of DTPA-BSA-Gd is high (reaching up to approx. 85%), and the nanoassembly provides strong entrapment of Gd³⁺ ions, which are then efficiently uptaken by cells. Moreover, the higher the surfactant content, the higher the LE. The viability studies demonstrate that the prepared nanoassemblies preserve high biocompatibility towards both cancer (HeLa) and normal cells (MSU 1.1). Nuclear magnetic resonance relaxometry studies (NMR relaxometry) followed by MRI on the prepared nanoassembly dispersions proved that the formation of GMO@DTPA-BSA-Gd nanoassemblies, considered as high molecular weight CAs, results in high relaxivity parameters (e.g., r₁ = 19.72 mM^-1 s^-1 for 2GMO-40DTPA-10F127) that are superior to commercially developed ones (e.g., Magnevist or Gadovist). These comprehensive studies imply that a high degree of internal ordering of nanoassemblies with a higher content of Gd-chelating lipid is not a decisive factor in determining the increase in relaxivity, thus confirming their potential as positive MRI CAs.