PURPOSE: The future significance of peptide radiopharmaceuticals in diagnostic imaging with PET will be dependent on methodological aspects, as well as other requirements such as availability of the radionuclide and cost-effectiveness of its production. The aim of this study was to evaluate whether recent improvements in the modification of peptide pharmacokinetics by carbohydration may open a niche for the use of 11C-labelled peptide receptor binding tracers. METHODS: A carbohydrated analogue of Tyr3-octreotate was used as a clinically relevant peptide. Oxime-mediated coupling between 4-[11C]methoxy-benzaldehyde and an aminooxy-conjugated peptide precursor provided the 11C-labelled peptide in 21+/-5% decay-corrected yield (n=4) in a synthesis time of about 1 h. RESULTS: In rat pancreas carcinoma xenografted mice, the compound displayed predominant and fast renal clearance combined with high tumour uptake (18.5+/-2.8% ID/g) at 30 min post injection. Corresponding values for kidney, liver and intestine were 18.5+/-2.4% ID/g, 3.2+/-0.5% ID/g and 2.1+/-0.3% ID/g, respectively. In a PET study with xenografted mice, the tumour (0.2-0.3 g) was clearly delineated as early as 20 min after injection. Somatostatin receptor (sstr)-specific uptake was demonstrated by reduction of tumour uptake to 20% of control by co-injection of TOC (0.4 mg/kg; 30 min p.i.). CONCLUSION: A 11C-labelled octreotate derivative has been prepared which shows suitable pharmacokinetics for in vivo imaging of sstr-overexpressing tumours and thus represents the first proof of principle for the potential of 11C-labelled peptides in tumour imaging.
PURPOSE: The future significance of peptide radiopharmaceuticals in diagnostic imaging with PET will be dependent on methodological aspects, as well as other requirements such as availability of the radionuclide and cost-effectiveness of its production. The aim of this study was to evaluate whether recent improvements in the modification of peptide pharmacokinetics by carbohydration may open a niche for the use of 11C-labelled peptide receptor binding tracers. METHODS: A carbohydrated analogue of Tyr3-octreotate was used as a clinically relevant peptide. Oxime-mediated coupling between 4-[11C]methoxy-benzaldehyde and an aminooxy-conjugated peptide precursor provided the 11C-labelled peptide in 21+/-5% decay-corrected yield (n=4) in a synthesis time of about 1 h. RESULTS: In ratpancreas carcinoma xenografted mice, the compound displayed predominant and fast renal clearance combined with high tumour uptake (18.5+/-2.8% ID/g) at 30 min post injection. Corresponding values for kidney, liver and intestine were 18.5+/-2.4% ID/g, 3.2+/-0.5% ID/g and 2.1+/-0.3% ID/g, respectively. In a PET study with xenografted mice, the tumour (0.2-0.3 g) was clearly delineated as early as 20 min after injection. Somatostatin receptor (sstr)-specific uptake was demonstrated by reduction of tumour uptake to 20% of control by co-injection of TOC (0.4 mg/kg; 30 min p.i.). CONCLUSION:A 11C-labelled octreotate derivative has been prepared which shows suitable pharmacokinetics for in vivo imaging of sstr-overexpressing tumours and thus represents the first proof of principle for the potential of 11C-labelled peptides in tumour imaging.
Authors: H J Wester; J Brockmann; F Rösch; W Wutz; H Herzog; P Smith-Jones; B Stolz; C Bruns; G Stöcklin Journal: Nucl Med Biol Date: 1997-05 Impact factor: 2.408
Authors: H J Wester; M Schottelius; K Scheidhauer; G Meisetschläger; M Herz; F C Rau; J C Reubi; M Schwaiger Journal: Eur J Nucl Med Mol Imaging Date: 2002-11-05 Impact factor: 9.236
Authors: R Haubner; H J Wester; F Burkhart; R Senekowitsch-Schmidtke; W Weber; S L Goodman; H Kessler; M Schwaiger Journal: J Nucl Med Date: 2001-02 Impact factor: 10.057
Authors: Mila V Todorović-Tirnanić; Milan M Gajić; Vladimir B Obradović; Richard P Baum Journal: Cancer Biother Radiopharm Date: 2014-01-22 Impact factor: 3.099