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Copper-64 radiopharmaceuticals for receptor-mediated tumor imaging and radiotherapyEiblmaier, Martin 11 April 2008 (has links)
This study investigated several somatostatin analogues labeled with copper-64 for imaging and targeted therapy of SSTr positive cancer. Among three new cross-bridged bifunctional chelators coupled to Y3-TATE, 64Cu-CB-TE2A-Y3-TATE had the most favorable tumor targeting properties. The introduction of ionizable linker groups could not remedy the slow clearance from the kidney, and other modifications will be necessary to resolve this issue. The emerging idea of using the copper-64-labeled somatostatin antagonist 64Cu-CB-TE2A-sst2-ANT as a tumor targeting agent will require further experimentation. This radiopharmaceutical showed promising initial results in a biodistribution study in male Lewis rats, however, it should be compared to 111In-DOTA-sst2-ANT in the same model. Nuclear localization of copper-64 from two somatostatin analogues differing in their chelate stability strengthened the hypothesis of copper-64 dissociation from the bifunctional chelator prior to trafficking to the nucleus. However, the increased nuclear uptake of copper-64 from the less stable 64Cu-TETA-Y3-TATE did not result in a significant effect on cell killing of A427-7 cells. In experiments with [64Cu]copper acetate and the EGFR-antibody 64Cu-DOTA-cetuximab, the tumor suppressor protein p53 was identified as a mediator of the nuclear transport of copper. 64Cu-DOTA-cetuximab was also utilized in five cervical cancer cell lines with a wide range of EGFR expression. EGFR quantification by saturation receptor binding, and EGFR function as determined via internalization of 64Cu-DOTA-cetuximab closely followed the expression pattern of these cell lines found via EGFR mRNA profiling. This constitutes a first step in the evaluation of cetuximab for the treatment, and of 64Cu-DOTA-cetuximab for the imaging of advanced cervical cancer, as EGFR expression on the tumor cell surface clearly can be quantified and visualized with this experimental system. Copper-64 has been used in this study to probe the basic biochemical process of intracellular copper trafficking, and for the targeting of cell surface receptors via radiolabeled peptides and antibodies, providing an example of the powerful combination of radiopharmaceutical chemistry and cell biology.
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