Insulinoma is a tumor derived from pancreatic β-cells, and the resulting hyperinsulinemia leads to characteristic hypoglycemia. Recent studies have reported the frequent overexpression of glucagon-like peptide-1 receptor (GLP-1R) in human insulinomas, suggesting that the binding of a radiolabeled compound to GLP-1R is useful for the imaging of such tumors. Exendin(9-39), a fragment peptide of exendin-3 and -4, binds GLP-1R with high affinity and acts as an antagonist. Accordingly, radiolabeled exendin(9-39) derivatives have also been investigated as insulinoma imaging probes that might be less likely to induce hypoglycemia. In this study, we synthesized a novel indium-111 (111In)-benzyl-diethylenetriaminepentaacetic acid (111In-BnDTPA)-conjugated exendin(9-39), 111In-BnDTPA-exendin(9-39), and evaluated its utility as a probe for the SPECT imaging of insulinoma. natIn-BnDTPA-exendin(9-39) exhibited a high affinity for GLP-1R (IC50=2.5nM), stability in plasma, and a specific activity that improved following reactions with a solvent and solubilizer. Regarding the in vivo biodistribution of 111In-BnDTPA-exendin(9-39) in INS-1 tumor-bearing mice, high uptake levels were observed in tumors (14.6%ID/g at 15min), with corresponding high tumor-to-blood (T/B), tumor-to-muscle (T/M), and tumor-to-pancreas (T/P) ratios (T/B=2.55, T/M=22.7, T/P=2.7 at 1h). The pre-administration of excess nonradioactive exendin(9-39) significantly reduced accumulation in both the tumor and pancreas (76% and 68% inhibition, respectively) at 1h after 111In-BnDTPA-exendin(9-39) injection, indicating that the GLP-1R mediated a majority of 111In-BnDTPA-exendin(9-39) uptake in the tumor and pancreas. Finally, 111In-BnDTPA-exendin(9-39) SPECT/CT studies in mice yielded clear images of tumors at 30min post-injection. These results suggest that 111In-BnDTPA-exendin(9-39) could be a useful SPECT molecular imaging probe for the detection and exact localization of insulinomas.
Keywords: (111)In; Exendin(9-39); Glucagon-like peptide 1 receptor; Insulinoma; Single-photon emission computed tomography.
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