Nikolas Hörmann scite author profile

Targeting of cholecystokinin-2 receptor (CCK2R) expressing tumors using radiolabeled minigastrin (MG) analogs is hampered by rapid digestion of the linear peptide in vivo. In this study, a new MG analog stabilized against enzymatic degradation was investigated in preclinical studies to characterize the metabolites formed in vivo. The new MG analog DOTA-DGlu-Pro-Tyr-Gly-Trp-(N-Me)Nle-Asp-1Nal-NH2 comprising site-specific amino acid substitutions in position 2, 6 and 8 and different possible metabolites thereof were synthesized. The receptor interaction of the peptide and selected metabolites was evaluated in a CCK2R-expressing cell line. The enzymatic stability of the 177Lu-labeled peptide analog was evaluated in vitro in different media as well as in BALB/c mice up to 1 h after injection and the metabolites were identified based on radio-HPLC analysis. The new radiopeptide showed a highly increased stability in vivo with >56% intact radiopeptide in the blood of BALB/c mice 1 h after injection. High CCK2R affinity and cell uptake was confirmed only for the intact peptide, whereas enzymatic cleavage within the receptor specific C-terminal amino acid sequence resulted in complete loss of affinity and cell uptake. A favorable biodistribution profile was observed in BALB/c mice with low background activity, preferential renal excretion and prolonged uptake in CCK2R-expressing tissues. The novel stabilized MG analog shows high potential for diagnostic and therapeutic use. The radiometabolites characterized give new insights into the enzymatic degradation in vivo.

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Synthesis, characterization and evaluation of hyaluronic acid-based polymers for nasal delivery

Laffleur

Hörmann

Gust

et al. 2023

International Journal of Pharmaceutics

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[68Ga]Ga-NODAGA-TriGalactan a new PET-tracer for imaging of the functional liver reserve

Zierke¹,

Rangger²,

Panzer³

et al. 2022

Nuclear Medicine and Biology

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Evaluation of the tumour targeting profile and characterisation of the metabolites for a novel stabilised minigastrin analogue

Hörmann¹,

Gust²,

Guggenberg³

et al. 2022

Nuclear Medicine and Biology

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