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Project

Development of novel cell death PET imaging probes for early treatment response evaluation

Cell death is a fundamental biological process. As different therapies may result in activation or inhibition of cell death, there is a need for imaging techniques that can identify cell death during the course of patient treatment. The development of molecular probes targeting cell death biomarkers are key. Caspase-3 activation and exposure of phosphatidylethanolamine (PE) in the cell membrane are important biomarkers for cell death. Selective in vivo positron emission tomography (PET) imaging of caspase-3 and PE could therefore aid in the assessment of early response to cancer therapy, preventing exposure of patients to needless toxicity. Recently, the use of unnatural amino acids in the caspase-3 recognition sequence and the modification of prime probe regions were described to be efficient strategies to design caspase-3 selective probes. Duramycin is a small peptide that binds to PE with high affinity and selectivity. The aim of the current work is the development of 18F-duramycin and 18F-labeled caspase-3 selective probes for noninvasive PET imaging of cell death. Following optimization of radiochemistry, the probes will be characterized to assess cell death binding and target selectivity, stability and pharmacokinetic behavior. Clinical applicability of the different probes will be evaluated in well characterized cancer xenograft models treated with targeted therapy or immunotherapy and compared to the clinical gold standard 18F-FDG for therapy response evaluation.
Date:1 Oct 2017 →  30 Sep 2020
Keywords:BIO-IMAGING
Disciplines:Nuclear imaging, Cell death, Cancer biology, Biomarker discovery, Biomarker evaluation
Project type:Collaboration project