As a tribute to Pieter R. Cullis, this manuscript identifies a liposomal formulation that bears his initials: the PRCosomes. "Pretty" Reactive Complexes within liposomes were observed, while the senior author of this manuscript completed his Ph.D. thesis under Pieter's supervision. The dye (safranine) was used as a tool to measure the magnitude of the transmembrane gradient generated with liposomes. The dye's redistribution is easily detected by eye and correlates with >98% encapsulation of the dye. This observation became the basis from which remote drug loading methods developed. Remote loading methodology involves the addition of drugs to pre-formed liposomes with a transmembrane gradient, which results in drug redistribution to the liposome interior. Doxorubicin, as an example drug candidate, complexes manganese trapped within the liposome. A color change accompanied drug encapsulation as the solution went from an orange to purple. This manuscript reviews and adds a novel perspective on the use of metal complexation reactions to prepare PRCosomes. The technology described provides a versatile method to form metal-drug complexed within liposomes. The purpose of this work is to differentiation between drug candidate loading that is caused by metal-drug complexation and loading driven by formation of a pH gradient.
Keywords: Copper; drug loading; liposome; manganese; metal-complexation; pH gradient.