Ram Kumar Selvaraju scite author profile

The glucagonlike peptide 1 receptor (GLP-1R) is mainly expressed on b-cells in the islets of Langerhans and is therefore an attractive target for imaging of the b-cell mass. In the present study, 68 Ga-labeled exendin-4 was evaluated for PET imaging and quantification of GLP-1R in the pancreas. Methods: Dose escalation studies of 68 Ga-labeled 1,4,7-tris(carboxymethylaza)cyclododecane-10-azaacetyl (DO3A)-exendin-4 were performed in rats (organ distribution) and cynomolgus monkeys (PET/CT imaging) to determine the GLP-1R-specific tissue uptake in vivo. Pancreatic uptake (as determined by organ distribution) in healthy rats was compared with that in diabetic rats. GLP-1R occupancy in the cynomolgus pancreas was quantified with a 1-tissue-compartment model. Results: In rodents, uptake in the pancreas was decreased from the baseline by up to 90% (P , 0.0001) by coadministration of DO3A-exendin-4 at 100 mg/kg. Pancreatic uptake in diabetic animals was decreased by more than 80% (P , 0.001) compared with that in healthy controls, as measured by organ distribution. GLP-1R occupancy in the cynomolgus pancreas after coinjection of DO3A-exendin-4 at 0.15-20 mg/kg ranged from 49% to 97%, as estimated by compartment modeling. Conclusion: These results strongly support the notion that 68 Ga-DO3A-exendin-4 uptake in the pancreas is mediated by specific receptor binding. In addition, pancreatic uptake was decreased by selective destruction of b-cells. This result suggests that GLP-1R can be quantified in vivo, which has major implications for the prospect of imaging of native b-cells.

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Detection of Metastatic Insulinoma by Positron Emission Tomography With [68Ga]Exendin-4—A Case Report

Eriksson

Selvaraju

Kandeel

et al. 2014

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Influence of Macrocyclic Chelators on the Targeting Properties of 68Ga-Labeled Synthetic Affibody Molecules: Comparison with 111In-Labeled Counterparts

et al. 2013

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Affibody molecules are a class of small (7 kDa) non-immunoglobulin scaffold-based affinity proteins, which have demonstrated substantial potential as probes for radionuclide molecular imaging. The use of positron emission tomography (PET) would further increase the resolution and quantification accuracy of Affibody-based imaging. The rapid in vivo kinetics of Affibody molecules permit the use of the generator-produced radionuclide 68Ga (T1/2 = 67.6 min). Earlier studies have demonstrated that the chemical nature of chelators has a substantial influence on the biodistribution properties of Affibody molecules. To determine an optimal labeling approach, the macrocyclic chelators 1,4,7,10-tetraazacylododecane-1,4,7,10-tetraacetic acid (DOTA), 1,4,7-triazacyclononane-N,N,N-triacetic acid (NOTA) and 1-(1,3-carboxypropyl)-1,4,7- triazacyclononane-4,7-diacetic acid (NODAGA) were conjugated to the N-terminus of the synthetic Affibody molecule ZHER2:S1 targeting HER2. Affibody molecules were labeled with 68Ga, and their binding specificity and cellular processing were evaluated. The biodistribution of 68Ga-DOTA-ZHER2:S1, 68Ga-NOTA-ZHER2:S1 and 68Ga-NODAGA-ZHER2:S1, as well as that of their 111In-labeled counterparts, was evaluated in BALB/C nu/nu mice bearing HER2-expressing SKOV3 xenografts. The tumor uptake for 68Ga-DOTA-ZHER2:S1 (17.9±0.7%IA/g) was significantly higher than for both 68Ga-NODAGA-ZHER2:S1 (16.13±0.67%IA/g) and 68Ga-NOTA-ZHER2:S1 (13±3%IA/g) at 2 h after injection. 68Ga-NODAGA-ZHER2:S1 had the highest tumor-to-blood ratio (60±10) in comparison with both 68Ga-DOTA-ZHER2:S1 (28±4) and 68Ga-NOTA-ZHER2:S1 (42±11). The tumor-to-liver ratio was also higher for 68Ga-NODAGA-ZHER2:S1 (7±2) than the DOTA and NOTA conjugates (5.5±0.6 vs.3.3±0.6). The influence of chelator on the biodistribution and targeting properties was less pronounced for 68Ga than for 111In. The results of this study demonstrate that macrocyclic chelators conjugated to the N-terminus have a substantial influence on the biodistribution of HER2-targeting Affibody molecules labeled with 68Ga.This can be utilized to enhance the imaging contrast of PET imaging using Affibody molecules and improve the sensitivity of molecular imaging. The study demonstrated an appreciable difference of chelator influence for 68Ga and 111In.

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Imaging of HER3-expressing xenografts in mice using a 99mTc(CO)3-HEHEHE-ZHER3:08699 affibody molecule

Orlova

Malm

Rosestedt

et al. 2014

Eur J Nucl Med Mol Imaging

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Imaging of HER3-expressing xenografts in mice using a (99m)Tc(CO) 3-HEHEHE-Z HER3 08699 affibody molecule. Tc(CO) 3 -HEHEHE-Z 08699 was studied over time in mice bearing HER3-expressing xenografts. European Journal of Nuclear Medicine and MolecularResults. HEHEHE-Z 08699 was labeled with 99m Tc(CO) 3 with an isolated yield of >80% and a purity of >99%. Binding of 99m Tc(CO) 3 -HEHEHE-Z 08699 was specific to BT474 and MCF7 (breast cancer), and LS174T (colon cancer) cells. Cellular processing showed rapid binding and relatively quick internalization of receptor/affibody molecule complex (70% cell associated radioactivity was internalized after 24 h). Tumor targeting was receptor mediated and the excretion was predominantly renal. Receptor mediated uptake was also found in liver, lung, stomach, intestine, and salivary glands.At 4 h pi, tumor-to-blood ratios were 7±3 for BT474, and 6±2 for LS174T xenografts. LS174T tumors were visualized by microSPECT 4 h pi. Conclusions. The results of this study suggest feasibility of HER3-imaging in malignant tumors using affibody molecules.

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