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  • Title: Evaluation of two novel ⁶⁴Cu-labeled RGD peptide radiotracers for enhanced PET imaging of tumor integrin αvβ₃.
    Author: Hernandez R, Czerwinski A, Chakravarty R, Graves SA, Yang Y, England CG, Nickles RJ, Valenzuela F, Cai W.
    Journal: Eur J Nucl Med Mol Imaging; 2015 Nov; 42(12):1859-68. PubMed ID: 26016906.
    Abstract:
    PURPOSE: Our goal was to demonstrate that suitably derivatized monomeric RGD peptide-based PET tracers, targeting integrin αvβ3, may offer advantages in image contrast, time for imaging, and low uptake in nontarget tissues. METHODS: Two cyclic RGDfK derivatives, (PEG)2-c(RGDfK) and PEG4-SAA4-c(RGDfK), were constructed and conjugated to NOTA for (64)Cu labeling. Their integrin αvβ3-binding properties were determined via a competitive cell binding assay. Mice bearing U87MG tumors were intravenously injected with each of the (64)Cu-labeled peptides, and PET scans were acquired during the first 30 min, and 2 and 4 h after injection. Blocking and ex vivo biodistribution studies were carried out to validate the PET data and confirm the specificity of the tracers. RESULTS: The IC50 values of NOTA-(PEG)2-c(RGDfK) and NOTA-PEG4-SAA4-c(RGDfK) were 444 ± 41 nM and 288 ± 66 nM, respectively. Dynamic PET data of (64)Cu-NOTA-(PEG)2-c(RGDfK) and (64)Cu-NOTA-PEG4-SAA4-c(RGDfK) showed similar circulation t 1/2 and peak tumor uptake of about 4 %ID/g for both tracers. Due to its marked hydrophilicity, (64)Cu-NOTA-PEG4-SAA4-c(RGDfK) provided faster clearance from tumor and normal tissues yet maintained excellent tumor-to-background ratios. Static PET scans at later time-points corroborated the enhanced excretion of the tracer, especially from abdominal organs. Ex vivo biodistribution and receptor blocking studies confirmed the accuracy of the PET data and the integrin αvβ3-specificity of the peptides. CONCLUSION: Our two novel RGD-based radiotracers with optimized pharmacokinetic properties allowed fast, high-contrast PET imaging of tumor-associated integrin αvβ3. These tracers may facilitate the imaging of abdominal malignancies, normally precluded by high background uptake.
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