Two is better than one: difunctional high-affinity PSMA probes based on a [CpM(CO)3] (M = Re/99mTc) scaffold

Abstract

More than 10% of all men will be given the diagnosis “prostate cancer” during their lifetime. Most of the current radio-diagnostic vehicles involve both expensive and localized production with cyclotrons as well as the use of bulky chelators for the radiometal. We report the use of a new multifunctional cyclopentadiene (Cp) platform to prepare difunctional and monofunctional, PSMA-targeting rhenium and technetium-99m complexes. The Cp-complexes and the free ligands are prepared by straightforward functionalization with either one or two Lys-urea-Glu (LuG) PSMA binding motifs. Cell binding assays revealed that the difunctional rhenium complex displays a dissociation constant (K_D = 2.1 nM) that is an order of magnitude lower than the monofunctional compound (K_D = 24.2 nM). The ^99mTc complexes can be prepared in one step and ≤15 min in high yields. These difunctional Cp-Re(I)/^99mTc(I) complexes represent a new class of imaging agents with binding affinities comparable to clinically evaluated compounds. Additionally, this study demonstrates that the Cp-platform can readily be derivatized with amine-containing biomolecules. Extending this work to incorporate both targeting and therapeutic moieties could lead to theranostic systems with Re/^99mTc.