TY - JOUR
T1 - Boosting Bismuth(III) Complexation for Targeted α-Therapy (TAT) Applications with the Mesocyclic Chelating Agent AAZTA**
AU - Horváth, Dávid
AU - Vágner, Adrienn
AU - Szikra, Dezsö
AU - Trencsényi, György
AU - Demitri, Nicola
AU - Guidolin, Nicol
AU - Maiocchi, Alessandro
AU - Ghiani, Simona
AU - Travagin, Fabio
AU - Giovenzana, Giovanni B.
AU - Baranyai, Zsolt
N1 - Publisher Copyright:
© 2022 The Authors. Angewandte Chemie International Edition published by Wiley-VCH GmbH.
PY - 2022/10/24
Y1 - 2022/10/24
N2 - Targeted α therapy (TAT) is a promising tool in the therapy of cancer. The radionuclide 213BiIII shows favourable physical properties for this application, but the fast and stable chelation of this metal ion remains challenging. Herein, we demonstrate that the mesocyclic chelator AAZTA quickly coordinates BiIII at room temperature, leading to a robust complex. A comprehensive study of the structural, thermodynamic and kinetic properties of [Bi(AAZTA)]− is reported, along with bifunctional [Bi(AAZTA-C4-COO−)]2− and the targeted agent [Bi(AAZTA-C4-TATE)]−, which incorporates the SSR agonist Tyr3-octreotate. An unexpected increase in the stability and kinetic inertness of the metal chelate was observed for the bifunctional derivative and was maintained for the peptide conjugate. A cyclotron-produced 205/206Bi mixture was used as a model of 213Bi in labelling, stability, and biodistribution experiments, allowing the efficiency of [213Bi(AAZTA-C4-TATE)]− to be estimated. High accumulation in AR42J tumours and reduced kidney uptake were observed with respect to the macrocyclic chelate [213Bi(DOTA-TATE)]−.
AB - Targeted α therapy (TAT) is a promising tool in the therapy of cancer. The radionuclide 213BiIII shows favourable physical properties for this application, but the fast and stable chelation of this metal ion remains challenging. Herein, we demonstrate that the mesocyclic chelator AAZTA quickly coordinates BiIII at room temperature, leading to a robust complex. A comprehensive study of the structural, thermodynamic and kinetic properties of [Bi(AAZTA)]− is reported, along with bifunctional [Bi(AAZTA-C4-COO−)]2− and the targeted agent [Bi(AAZTA-C4-TATE)]−, which incorporates the SSR agonist Tyr3-octreotate. An unexpected increase in the stability and kinetic inertness of the metal chelate was observed for the bifunctional derivative and was maintained for the peptide conjugate. A cyclotron-produced 205/206Bi mixture was used as a model of 213Bi in labelling, stability, and biodistribution experiments, allowing the efficiency of [213Bi(AAZTA-C4-TATE)]− to be estimated. High accumulation in AR42J tumours and reduced kidney uptake were observed with respect to the macrocyclic chelate [213Bi(DOTA-TATE)]−.
KW - AAZTA
KW - Bioconjugation
KW - Bismuth
KW - Octreotate
KW - Targeted Alpha Therapy
UR - https://www.scopus.com/pages/publications/85139120995
U2 - 10.1002/anie.202207120
DO - 10.1002/anie.202207120
M3 - Article
SN - 1433-7851
VL - 61
JO - Angewandte Chemie - International Edition
JF - Angewandte Chemie - International Edition
IS - 43
M1 - e202207120
ER -
