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The Human Norepinephrine Transporter in Combination with ¹¹C-m-Hydroxyephedrine as a Reporter Gene/Reporter Probe for PET of Gene Therapy

¹ Department of Nuclear Medicine and Molecular Imaging, University Medical Center Groningen, University of Groningen, Groningen, The Netherlands
² Department of Therapeutic Gene Modulation, University of Groningen, Groningen, The Netherlands
³ Department of Medical Oncology, University Medical Center Groningen, University of Groningen, Groningen, The Netherlands

Although the herpes simplex virus thymidine kinase gene has been frequently applied as a reporter gene for monitoring gene transfection in animals, it has some intrinsic limitations for use in humans. In our search for a reporter gene that lacks these limitations, we have evaluated the feasibility of the human norepinephrine transporter (hNET) as a reporter gene in combination with the reporter probe ¹¹C-m-hydroxyephedrine (mHED) for PET. Methods: An adenoviral vector (AdTrack-hNET) containing the hNET gene as reporter gene and the enhanced green fluorescent protein (EGFP) as a substitute for a therapeutic gene was constructed. After COS-7, A2780, and U373 cells were transiently transduced with AdTrack-hNET, hNET protein expression, EGFP fluorescence, and cellular uptake of ¹¹C-mHED were determined. In rats, U373 tumor xenografts were grown and transiently transduced with either AdTrack-hNET or an AdTrack-Luc control adenovirus. Intratumoral accumulation of ¹¹C-mHED was determined by PET and ex vivo biodistribution. The tumors were subsequently examined for EGFP fluorescence. Results: ¹¹C-mHED uptake was positively correlated with AdTrack-hNET viral titer and hNET protein expression. However, large differences in transfection efficiency between cell lines were observed. The highest ¹¹C-mHED uptake was found in hNET transfected U373 cells, in which tracer uptake was >70-fold higher than that in control cells. ¹¹C-mHED accumulation could be inhibited by desipramine, a potent inhibitor of hNET. In all cell lines, ¹¹C-mHED uptake was positively correlated with EGFP fluorescence, implying that imaging of hNET with ¹¹C-mHED would enable monitoring of a coexpressed therapeutic gene. In the animal model, gene transfection efficiencies were very low, as determined by EGFP fluorescence. Still, a significantly higher ¹¹C-mHED uptake in hNET transduced tumors than that in control tumors was demonstrated by ex vivo biodistribution studies. PET with a clinical camera could visualize 1 of 3 hNET transduced tumors, indicating that the transfection efficiency was near the detection limit. Conclusion: These results indicate that monitoring of gene therapy using the hNET/¹¹C-mHED reporter gene/probe is feasible, but further investigation with regard to the sensitivity of the technique is required.

Key Words: ¹¹C-m-hydroxyephedrine • human norepinephrine transporter • PET • gene therapy • reporter gene

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