3p-C-NETA: A versatile and effective chelator for development of AlF-labeled and therapeutic radiopharmaceuticals.

: Radiolabeled somatostatin analogues ( [Ga]Ga-DOTATATE and [Lu]Lu-DOTATATE) have been used to diagnose, monitor, and treat neuroendocrine tumour (NET) patients with great success. [F]AlF-NOTA-octreotide, a promising F-labeled somatostatin analogue and potential alternative for Ga-DOTA-peptides, is under clinical evaluation. However, ideally, the same precursor (combination of chelator-linker-vector) can be used for production of both diagnostic and therapeutic radiopharmaceuticals with very similar ( AlF-method in combination with therapeutic radiometals Bi/Lu) or identical ( complementary Tb-radionuclides) pharmacokinetic properties, allowing for accurate personalised dosimetry estimation and radionuclide therapy of NET patients. In this study we evaluated 3p--NETA, as potential theranostic AlF-chelator and present first results of radiosynthesis and preclinical evaluation of [F]AlF-3p--NETA-TATE. : 3p--NETA was synthesized and radiolabeled with diagnostic (Ga, AlF) or therapeutic (Lu, Tb, Bi, Ac and Cu) radionuclides at different temperatures (25-95 °C). The stability of the corresponding radiocomplexes was determined in phosphate-buffered saline (PBS) and human serum. 3p--NETA-TATE was synthesized using standard solid/liquid-phase peptide synthesis. [F]AlF-3p--NETA-TATE was synthesized in an automated AllinOne® synthesis module and the stability of [F]AlF-3p--NETA-TATE was evaluated in formulation buffer, PBS and human serum. [F]AlF-3p--NETA-TATE pharmacokinetics were evaluated using µPET/MRI in healthy rats, with [F]AlF-NOTA-Octreotide as benchmark. : 3p--NETA quantitatively sequestered Lu, Bi and Cu at 25 °C while heating was required to bind AlF, Ga, Tb and Ac efficiently. The [F]AlF-, [Lu]Lu- and [Tb]Tb-3p--NETA-complex showed excellent stability in both PBS and human serum over the study period. In contrast, [Cu]Cu- and [Ac]Ac-, [Ga]Ga-3p--NETA were stable in PBS, but not in human serum. [F]AlF-3p--NETA-TATE was obtained in good radiochemical yield and radiochemical purity. [F]AlF-3p--NETA-TATE displayed good stability for 4 h in all tested conditions. Finally, [F]AlF-3p--NETA-TATE showed excellent pharmacokinetic properties comparable with the results obtained for [F]AlF-NOTA-Octreotide. : 3p--NETA is a versatile chelator that can be used for both diagnostic applications (AlF) and targeted radionuclide therapy (Bi, Lu, Tb). It has the potential to be the new theranostic chelator of choice for clinical applications in nuclear medicine.