Keith Graham scite author profile

The gastrin-releasing peptide receptor (GRPr) is overexpressed on various human tumors. The goal of our study was the synthesis of new 18F-labeled bombesin analogues for the PET imaging of GRPr expression in prostate tumor using a silicon-based one-step n. c. a. radiolabeling method. The silicon-containing building blocks were efficiently coupled to the N-terminus of the peptides via solid-phase synthesis. Radiolabeling of the obtained peptide precursors proceeded smoothly under acidic conditions (34-85% conversion). Using the di-tert-butyl silyl building block as labeling moiety, products containing a hydrolytically stable 18F-label were obtained. In in vitro receptor binding experiments 2-(4-(di-tert-butylfluorosilyl)phenyl)acetyl-Arg-Ava-Gln-Trp-Ala-Val-NMeGly-His-Sta-Leu-NH 2 ( 4b, IC50 = 22.9 nM) displayed a 12-fold higher binding affinity than 2-(4-(di-tert-butylfluorosilyl)phenyl)acetyl-Arg-Ava-Gln-Trp-Ala-Val-Gly-His(3Me)-Sta-Leu-NH2 ( 3b, IC50 = 276.6 nM), and 4b was therefore chosen for further evaluation. In vitro and ex vivo metabolite studies of [18F]4b showed no significant degradation. In biodistribution experiments, tumor uptake of [18F]4b was low and unspecific, whereas the GRPr-rich pancreas revealed a high and specific accumulation of the radiotracer. This study demonstrates the applicability of our silicon-based one-step n. c. a. radiolabeling method for the synthesis of new 18F-labeled bombesin derivatives. This innovative approach represents a general, straightforward access to radiolabeled peptides as PET imaging probes.

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Silicon‐Based Building Blocks for One‐Step ¹⁸F‐Radiolabeling of Peptides for PET Imaging

Mu¹,

Höhne²,

Schubiger³

et al. 2008

Angew Chem Int Ed

106

103

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Radio‐controlled landing of F: The facile 18F labeling of biomolecules has been achieved under mild conditions by using a unique silicon‐based one‐step approach (see scheme). A di‐tert‐butylsilyl derivative with an aryl linker was attached to a tetrapeptide. The assembly shows a hydrolytic stability that appears to be within the range required for in vivo positron emission tomography (PET) imaging applications.

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Preclinical Evaluation of the Breast Cancer Cell-Binding Peptide, p160

Askoxylakis¹,

Zitzmann²,

Mier³

et al. 2005

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Purpose: Selective delivery of drugs into the target tissue is expected to result in high drug concentrations in the tissue of interest and therefore enhanced drug efficacy. To develop a peptidebased radiopharmaceutical, we investigated the properties of a peptide with affinity for human breast cancer, which has been selected through phage display. Experimental Design: The bioactivity of the p160 peptide (VPWMEPAYQRFL) was evaluated in vitro and in vivo. The specific binding to human breast cancer MDA-MB-435 cells was confirmed in competition experiments. Internalization of the peptide was investigated with confocal microscopy. Furthermore, the biodistribution of 131 I-labeled p160 was studied in tumor-bearing mice. In vivo stability was evaluated at different periods after tracer administration using highperformance liquid chromatography analysis. Results: The binding of 125 I-labeled p160 was inhibited up to 95% by the unlabeled peptide with an IC 50 value of 0.6 Amol/L. In addition, 40% of the total bound activity was found to be internalized into the human breast cancer cells. Although a rapid degradation was seen, biodistribution studies in nude mice showed a higher uptake in tumor than in most of the organs. Perfusion of the animals caused a reduction of the radioligand accumulation in the healthy tissues, whereas the tumor uptake remained constant. A comparison of [

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Keith Graham

Development of a potent DOTA-conjugated bombesin antagonist for targeting GRPr-positive tumours

Synthesis, ¹⁸F-Labeling, and in Vitro and in Vivo Studies of Bombesin Peptides Modified with Silicon-Based Building Blocks

Silicon‐Based Building Blocks for One‐Step ¹⁸F‐Radiolabeling of Peptides for PET Imaging

Preclinical Evaluation of the Breast Cancer Cell-Binding Peptide, p160

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About

Keith Graham

Development of a potent DOTA-conjugated bombesin antagonist for targeting GRPr-positive tumours

Synthesis, 18F-Labeling, and in Vitro and in Vivo Studies of Bombesin Peptides Modified with Silicon-Based Building Blocks

Silicon‐Based Building Blocks for One‐Step 18F‐Radiolabeling of Peptides for PET Imaging

Preclinical Evaluation of the Breast Cancer Cell-Binding Peptide, p160

Contact Info

Product

Resources

About

Synthesis, ¹⁸F-Labeling, and in Vitro and in Vivo Studies of Bombesin Peptides Modified with Silicon-Based Building Blocks

Silicon‐Based Building Blocks for One‐Step ¹⁸F‐Radiolabeling of Peptides for PET Imaging