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Construction of the Bioconjugate Py-Macrodipa-PSMA and Its In Vivo Investigations with Large <sup>132/135</sup>La<sup>3+</sup> and Small <sup>47</sup>Sc<sup>3+</sup> Radiometal Ions.


ABSTRACT: To harness radiometals in clinical settings, a chelator forming a stable complex with the metal of interest and targets the desired pathological site is needed. Toward this goal, we previously reported a unique set of chelators that can stably bind to both large and small metal ions, via a conformational switch. Within this chelator class, py-macrodipa is particularly promising based on its ability to stably bind several medicinally valuable radiometals including large 132/135La3+, 213Bi3+, and small 44Sc3+. Here, we report a 10-step organic synthesis of its bifunctional analogue py-macrodipa-NCS, which contains an amine-reactive -NCS group that is amenable for bioconjugation reactions to targeting vectors. The hydrolytic stability of py-macordipa-NCS was assessed, revealing a half-life of 6.0 d in pH 9.0 aqueous buffer. This bifunctional chelator was then conjugated to a prostate-specific membrane antigen (PSMA)-binding moiety, yielding the bioconjugate py-macrodipa-PSMA, which was subsequently radiolabeled with large 132/135La3+ and small 47Sc3+, revealing efficient and quantitative complex formation. The resulting radiocomplexes were injected into mice bearing both PSMA-expressing and PSMA-non-expressing tumor xenografts to determine their biodistribution patterns, revealing delivery of both 132/135La3+ and 47Sc3+ to PSMA+ tumor sites. However, partial radiometal dissociation was observed, suggesting that py-macrodipa-PSMA needs further structural optimization.

SUBMITTER: Hu A 

PROVIDER: S-EPMC10939043 | biostudies-literature | 2023 Dec

REPOSITORIES: biostudies-literature

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Construction of the Bioconjugate Py-Macrodipa-PSMA and Its In Vivo Investigations with Large <sup>132/135</sup>La<sup>3+</sup> and Small <sup>47</sup>Sc<sup>3+</sup> Radiometal Ions.

Hu Aohan A   Martin Kirsten E KE   Śmiłowicz Dariusz D   Aluicio-Sarduy Eduardo E   Cingoranelli Shelbie J SJ   Lapi Suzanne E SE   Engle Jonathan W JW   Boros Eszter E   Wilson Justin J JJ  

European journal of inorganic chemistry 20230920 35


To harness radiometals in clinical settings, a chelator forming a stable complex with the metal of interest and targets the desired pathological site is needed. Toward this goal, we previously reported a unique set of chelators that can stably bind to both large and small metal ions, via a conformational switch. Within this chelator class, py-macrodipa is particularly promising based on its ability to stably bind several medicinally valuable radiometals including large <sup>132/135</sup>La<sup>3  ...[more]

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