Pharmaceutics (Jul 2022)

Preclinical Evaluation of a New Format of <sup>68</sup>Ga- and <sup>111</sup>In-Labeled Affibody Molecule Z<sub>IGF-1R:4551</sub> for the Visualization of IGF-1R Expression in Malignant Tumors Using PET and SPECT

  • Yongsheng Liu,
  • Shengze Yu,
  • Tianqi Xu,
  • Vitalina Bodenko,
  • Anna Orlova,
  • Maryam Oroujeni,
  • Sara S. Rinne,
  • Vladimir Tolmachev,
  • Anzhelika Vorobyeva,
  • Torbjörn Gräslund

DOI
https://doi.org/10.3390/pharmaceutics14071475
Journal volume & issue
Vol. 14, no. 7
p. 1475

Abstract

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The Insulin-like growth factor-1 receptor (IGF-1R) is a molecular target for several monoclonal antibodies undergoing clinical evaluation as anticancer therapeutics. The non-invasive detection of IGF-1R expression in tumors might enable stratification of patients for specific treatment and improve the outcome of both clinical trials and routine treatment. The affibody molecule ZIGF-1R:4551 binds specifically to IGF-1R with subnanomolar affinity. The goal of this study was to evaluate the 68Ga and 111In-labeled affibody construct NODAGA-(HE)3-ZIGF-1R:4551 for the imaging of IGF-1R expression, using PET and SPECT. The labeling was efficient and provided stable coupling of both radionuclides. The two imaging probes, [68Ga]Ga-NODAGA-(HE)3-ZIGF-1R:4551 and [111In]In-NODAGA-(HE)3-ZIGF-1R:4551, demonstrated specific binding to IGF-1R-expressing human cancer cell lines in vitro and to IGF-1R-expressing xenografts in mice. Preclinical PET and SPECT/CT imaging demonstrated visualization of IGF-1R-expressing xenografts already one hour after injection. The tumor-to-blood ratios at 3 h after injection were 7.8 ± 0.2 and 8.0 ± 0.6 for [68Ga]Ga-NODAGA-(HE)3-ZIGF-1R:4551 and [111In]In-NODAGA-(HE)3-ZIGF-1R:4551, respectively. In conclusion, a molecular design of the ZIGF-1R:4551 affibody molecule, including placement of a (HE)3-tag on the N-terminus and site-specific coupling of a NODAGA chelator on the C-terminus, provides a tracer with improved imaging properties for visualization of IGF-1R in malignant tumors, using PET and SPECT.

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