Gadolinium Complexes of Highly Rigid, Open-Chain Ligands Containing a CyclobutaneRing in the Backbone: Decreasing Ligand Denticity Might Enhance KineticInertness

In an effort to explore novel ligand scaffolds for stable and inert lanthanide complexation in magnetic resonance imaging contrast agent research, three chiral ligands containing a highly rigid (1S,2S)-1,2-cyclobutanediamine spacer and different number of acetate and picolinate groups were efficiently synthesized. Potentiometric studies show comparable thermodynamic stability for the Gd3+ complexes formed with either the octadentate (L3)4– bearing two acetate or two picolinate groups or the heptadentate (L2)4– analogue bearing one picolinate and three acetate groups (log KGdL = 17.41 and 18.00 for [Gd(L2)]− and [Gd(L3)]−, respectively). In contrast, their dissociation kinetics is revealed to be very different: the monohydrated [Gd(L3)]− is considerably more labile, as a result of the significant kinetic activity of the protonated picolinate function, as compared to the bishydrated [Gd(L2)]−. This constitutes an uncommon example in which lowering ligand denticity results in a remarkable increase in kinetic...