Translational assessment of a DATA-functionalized FAP inhibitor with facile 68 Ga-labeling at room temperature

The present study aims at evaluating the preclinical and the clinical performance of [ Ga]Ga-DATA SA.FAPi, which has the advantage to be labeled with gallium-68 at room temperature. [ Ga]Ga-DATA .SA.FAPi was assessed in vitro on FAP-expressing stromal cells, followed by biodistribution and in vivo i...

Full description

Saved in:
Bibliographic Details
Published in:European journal of nuclear medicine and molecular imaging 2023-06
Main Authors: Escudero-Castellanos, Alondra, Kurth, Jens, Imlimthan, Surachet, Menéndez, Elena, Pilatis, Eirinaios, Moon, Euy Sung, Läppchen, Tilman, Rathke, Hendrik, Schwarzenböck, Sarah M, Krause, Bernd J, Rösch, Frank, Rominger, Axel, Gourni, Eleni
Format: Article
Language:English
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:The present study aims at evaluating the preclinical and the clinical performance of [ Ga]Ga-DATA SA.FAPi, which has the advantage to be labeled with gallium-68 at room temperature. [ Ga]Ga-DATA .SA.FAPi was assessed in vitro on FAP-expressing stromal cells, followed by biodistribution and in vivo imaging on prostate and glioblastoma xenografts. Moreover, the clinical assessment of [ Ga]Ga-DATA .SA.FAPi was conducted on six patients with prostate cancer, aiming on investigating, biodistribution, biokinetics, and determining tumor uptake. [ Ga]Ga-DATA .SA.FAPi is quantitatively prepared in an instant kit-type version at room temperature. It demonstrated high stability in human serum, affinity for FAP in the low nanomolar range, and high internalization rate when associated with CAFs. Biodistribution and PET studies in prostate and glioblastoma xenografts revealed high and specific tumor uptake. Elimination of the radiotracer mainly occurred through the urinary tract. The clinical data are in accordance with the preclinical data concerning the organ receiving the highest absorbed dose (urinary bladder wall, heart wall, spleen, and kidneys). Different to the small-animal data, uptake of [ Ga]Ga-DATA .SA.FAPi in tumor lesions is rapid and stable and tumor-to-organ and tumor-to-blood uptake ratios are high. The radiochemical, preclinical, and clinical data obtained in this study strongly support further development of [ Ga]Ga-DATA .SA.FAPi as a diagnostic tool for FAP imaging.
ISSN:1619-7089