Damian Wild scite author profile

antagonist radioligands ͉ tumor targeting ͉ peptide hormones ͉ neuropeptides ͉ receptor internalization P eptide receptor targeting in vivo is a successful method to image and treat various types of cancers (1). The best example is somatostatin receptor targeting with 111 In-, 90 Y-, or 177 Lu-labeled somatostatin radioligands that are injected into the patients intravenously and accumulate in their somatostatin receptor-expressing tumors. For this purpose, agonists have been selected. The rationale is that agonists, after high-affinity binding to the receptor, usually trigger internalization of the ligandreceptor complex (2). This process of internalization is the basis for an efficient accumulation of the radioligand in a cell over time (1,(3)(4)(5), and it has been considered a crucial step in the process of in vivo receptor targeting with radiolabeled peptides (4-6). Recently, a highly significant correlation between the rate of ligand internalization in vitro into AR42J cells expressing somatostatin receptor subtype 2 (sst 2 ) and the in vivo uptake in the sst 2 -expressing rat tumor model has been reported

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Glucagon-Like Peptide-1 Receptor Imaging for Localization of Insulinomas

Christ

et al. 2009

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DOTA-NOC, a high-affinity ligand of somatostatin receptor subtypes 2, 3 and 5 for labelling with various radiometals

Wild

Schmitt

Ginj

et al. 2003

Eur J Nucl Med Mol Imaging

277

184

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Abstract.Earlier studies have shown that modification of the octapeptide octreotide in positions 3 and 8 may result in compounds with increased somatostatin receptor affinity that, if radiolabelled, display improved uptake in somatostatin receptor-positive tumours. The aim of a recent research study in our laboratory was to employ the parallel peptide synthesis approach by further exchanging the amino acid in position 3 of octreotide and coupling the macrocyclic chelator DOTA(1,4,7,10-tetraazacyclododecane-1,4,7,10-tetraacetic acid) to these peptides for labelling with radiometals like gallium-67 or -68, indium-111, yttrium-90 and lutetium-177. The purpose was to find radiopeptides with an improved somatostatin receptor binding profile in order to extend the spectrum of targeted tumours. In]DOTA-OC). The internalized radiopeptides were externalized intact upon 2 h of internalization followed by an acid wash. After 2-3 h of externalization a plateau is reached, indicating a steadystate situation explained by reactivation of the receptors followed by re-endocytosis. Biodistribution studies in CA 20948 tumour-bearing rats showed rapid clearance from all sstr-negative tissues except the kidneys. At 4 h the uptake of [ 111 In]DOTA-NOC in the tumour and sstr-positive tissues, such as adrenals, stomach and pancreas, was three to four times higher than that of [ 111 In]DOTA-TOC. Differential blocking studies indicate that this is at least partially due to the uptake mediated by sstr3 and sstr5. These very promising preclinical data justify the use of this new radiopeptide for imaging and potentially internal radiotherapy studies in patients.

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Exendin-4–Based Radiopharmaceuticals for Glucagonlike Peptide-1 Receptor PET/CT and SPECT/CT

et al. 2010

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Tc/EDDA)NH 2 ]-exendin-4 did not result in inferior tumor-to-organ ratios or reduced image quality. All radiopeptides tested showed a high tumor-to-background ratio, resulting in the visualization of small tumors (maximum diameter between 1.0 and 3.2 mm) by SPECT and PET. The only exception was the kidneys, which also showed high uptake. This uptake could be reduced by 49%278% using poly-glutamic acid, Gelofusine, or a combination of the 2. The estimated effective radiation dose was 3.7 mSv/MBq for [Lys 40

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Damian Wild

Radiolabeled somatostatin receptor antagonists are preferable to agonists forin vivopeptide receptor targeting of tumors

Glucagon-Like Peptide-1 Receptor Imaging for Localization of Insulinomas

DOTA-NOC, a high-affinity ligand of somatostatin receptor subtypes 2, 3 and 5 for labelling with various radiometals

Exendin-4–Based Radiopharmaceuticals for Glucagonlike Peptide-1 Receptor PET/CT and SPECT/CT

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