Τρίτη 13 Δεκεμβρίου 2016

Low kidney uptake of GLP-1R-targeting, beta cell-specific PET tracer, 18 F-labeled [Nle 14 ,Lys 40 ]exendin-4 analog, shows promise for clinical imaging

Abstract

Background

Several radiometal-labeled, exendin-based tracers that target glucagon-like peptide-1 receptors (GLP-1R) have been intensively explored for β cell imaging. The main obstacle has been the high uptake of tracer in the kidneys. This study aimed to develop a novel GLP1-R-specific tracer, with fluorine-18 attached to exendin-4, to label β cells for clinical imaging with PET (positron emission tomography). We hypothesized that this tracer would undergo reduced kidney uptake. 18F-labeled [Nle14,Lys40]exendin-4 analog ([18F]exendin-4) was produced via Cu-catalyzed click chemistry. The biodistribution of [18F]exendin-4 was assessed with ex vivo organ γ-counting and in vivo PET imaging. We also tested the in vivo stability of the radiotracer. The localization of 18F radioactivity in rat and human pancreatic tissue sections was investigated with autoradiography. Receptor specificity was assessed with unlabeled exendin-3. Islet labeling was confirmed with immunohistochemistry. The doses of radiation in humans were estimated based on biodistribution results in rats.

Results

[18F]exendin-4 was synthesized with high yield and high specific activity. Results showed specific, sustained [18F]exendin-4 uptake in pancreatic islets. In contrast to previous studies that tested radiometal-labeled exendin-based tracers, we observed rapid renal clearance of [18F]exendin-4.

Conclusions

[18F]exendin-4 showed promise as a tracer for clinical imaging of pancreatic β cells, due to its high specific uptake in native β cells and its concomitant low kidney radioactivity uptake.



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