| Literature DB >> 28963750 |
Nikki A Thiele1, Victoria Brown2, James M Kelly3, Alejandro Amor-Coarasa3, Una Jermilova2, Samantha N MacMillan1, Anastasia Nikolopoulou3, Shashikanth Ponnala3, Caterina F Ramogida2, Andrew K H Robertson2, Cristina Rodríguez-Rodríguez4, Paul Schaffer2, Clarence Williams3, John W Babich3, Valery Radchenko2, Justin J Wilson1.
Abstract
The 18-membered macrocycle H2 macropa was investigated for 225 Ac chelation in targeted alpha therapy (TAT). Radiolabeling studies showed that macropa, at submicromolar concentration, complexed all 225 Ac (26 kBq) in 5 min at RT. [225 Ac(macropa)]+ remained intact over 7 to 8 days when challenged with either excess La3+ ions or human serum, and did not accumulate in any organ after 5 h in healthy mice. A bifunctional analogue, macropa-NCS, was conjugated to trastuzumab as well as to the prostate-specific membrane antigen-targeting compound RPS-070. Both constructs rapidly radiolabeled 225 Ac in just minutes at RT, and macropa-Tmab retained >99 % of its 225 Ac in human serum after 7 days. In LNCaP xenograft mice, 225 Ac-macropa-RPS-070 was selectively targeted to tumors and did not release free 225 Ac over 96 h. These findings establish macropa to be a highly promising ligand for 225 Ac chelation that will facilitate the clinical development of 225 Ac TAT for the treatment of soft-tissue metastases.Entities:
Keywords: actinium; cancer; chelates; macrocycles; radiopharmaceuticals
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Year: 2017 PMID: 28963750 DOI: 10.1002/anie.201709532
Source DB: PubMed Journal: Angew Chem Int Ed Engl ISSN: 1433-7851 Impact factor: 15.336