Binding of a dimeric manganese porphyrin to serum albumin: towards a gadolinium-free blood-pool T 1 MRI contrast agent

As the first clinically approved gadolinium-based blood-pool MRI contrast agent, gadofosveset was designed to bind to human serum albumin (HSA) reversibly, extending the circulation time in the bloodstream. This valuable pharmacokinetic property required for vasculature imaging, however, raises the risk of release and accumulation of gadolinium in vivo. The binding of gadofosveset to HSA significantly increases the relaxivity at low field, which decreases drastically when the magnetic field increases, limiting the applications of gadofosveset at fields of 3 T and higher. To address those challenges, we evaluated a novel dimeric manganese(III) porphyrin (MnP2) in vitro and in vivo as a potential gadolinium-free blood-pool agent. Through multiple spectroscopic studies, we demonstrated that MnP2 binds to HSA tightly. MnP2 exhibits a moderate relaxivity decrease on HSA binding. Nevertheless, owing to the unique field-dependent relaxation behaviors and the dimeric construct (two Mn III ions per complex), MnP2–HSA has a molar relaxivity twice that of the gadofosveset–HSA complex at 3 T. Through intravenous injection in rats, MnP2 exhibits long retention and significant contrast enhancement in the vascular compartment, as tested in a 3-T high-field clinical MRI scanner. Taken together, these data demonstrate that MnP2 represents a new class of gadolinium-free blood-pool agents suitable for both regular and high-field applications.