p-NCS-Bn-NODAGA as a bifunctional chelator for radiolabeling with the 186Re/99mTc-tricarbonyl core: Radiochemistry with model complexes and a GRPR-targeting peptide.

INTRODUCTION:With the goal of developing theranostic agents for application in radiopharmaceutical chemistry, in this work, we studied p-NCS-Bn-NODAGA (1) as a bifunctional chelator for the fac-[M(CO)3]+ core (M = natRe, 186Re, 99mTc). Specifically, we studied complexes of the formula [M(CO)3(L)]+, where L denotes either Bn-NODAGA-Pyr (2) or Bn-NODAGA-Ser-Ser-RM2 (3). METHODS:The model bioconjugate molecule 2 was synthesized by conjugating pyrrolidine with 1, while 3 was derived from the conjugation of the gastrin-releasing peptide receptor (GRPR)-targeting peptide Ser-Ser-RM2 with 1. Labeling of 2 and 3 was performed with [M(CO)3(OH2)3]+ (where M = natRe, 186Re, or 99mTc). The stability of the radioactive complexes was studied against l-histidine and l-cysteine (1 mM in PBS; pH 7.4, 37 °C). GRPR affinity of both peptide 3 and its metallated counterpart, Re-3, were determined with in vitro competitive binding assays in GRPR-expressing PC-3 cells using [125I]I-Tyr4-BBN as the competitor. RESULTS:After a thorough radiolabeling optimization process, the [M(CO)3(2)]+ model complexes (M = 186Re and 99mTc) were synthesized with 94 ± 2% radiochemical yield (RCY; estimated by radio-HPLC). In stability studies, [186Re]Re-2 remained intact through 7 d in l-cysteine and l-histidine. Similarly, stability studies in rat serum at 37 °C showed 99 ± 1% intact [186Re]Re-2 through 4 h. Non-specific rat serum protein binding of [186Re]Re-2 was found to be 33 ± 4% at 4 h. The [99mTc]Tc-2 complex was found to be stable in l-histidine and l-cysteine at 37 °C through 24 h. [99mTc]Tc-2 was also stable in rat serum, with 38 ± 3% non-specific protein binding, at 4 h. The [M(CO)3(3)]+ peptide radiometal complex (M = 186Re and 99mTc) syntheses were also optimized, resulting in RCYs of 35% for [186Re]Re-3 and 47% for [99mTc]Tc-3 (estimated by radio-HPLC). [186Re]Re-3 showed 98 ± 2% and 84 ± 5% stability in l-histidine and l-cysteine, respectively, through 48 h. Similarly, stability studies in rat serum at 37 °C showed 85 ± 3% intact [186Re]Re-3 through 4 h, with 29 ± 7% non-specific protein binding in rat serum. [99mTc]Tc-3 was found to be 84 ± 3% and 82 ± 4% stable in l-histidine and l-cysteine at 24 h, respectively. [99mTc]Tc-3 in rat serum at 37 °C showed 88 ± 2% stability through 4 h, with 25 ± 2% non-specific protein binding. Both 3 and Re-3 demonstrated high GRPR affinity, with IC50 values of 3.1 nM and 3.9 nM, respectively. CONCLUSIONS:The low nanomolar IC50 values obtained for 3 and Re-3 demonstrate high affinity of this novel [M(CO)3]-labeled bioconjugate for GRPR. The encouraging stability studies and receptor affinity results demonstrate promise for further development of these metal complexes as a theranostic matched pair for targeting GRPR.