Abstract

Treatment with immune checkpoint inhibitors has improved both progressionfree survival and overall survival in a subset of patients with tumors. However, the selection of patients who benefit from immune checkpoint inhibitor treatment remains challenging. Positron Emission Tomography (PET) is a non-invasive molecular imaging tool that offers a promising alternative to the current IHC for detecting the PD-L1 expression in malignant cells in vivo, enabling patient selection and predicting the response to individual patient immunotherapy treatment. Herein, we report the development of novel [18F]labeled pyridine-2-carboxamide derivatives [18F]2 and [18F]3 as small-molecule probes for imaging immune checkpoint (PD-1/PD-L1) in cancer using PET. [18F]2 and [18F]3 were prepared by a one-step radiofluorination in 44 ± 5% and 30 ± 4% radiochemical yield and > 98% radiochemical purity for a potential clinical translation. The total synthesis time, including HPLC purification, was less than 45 min. [18F]2 and [18F]3 showed excellent stability in injection solution and a significant accumulation and retention in PD-1/PD-L1 expressing MDA-MB-231 breast cancer and in HeLa cervix carcinoma cells (2- 5 cpm/1000 cells). In addition, autoradiographic analysis and inhibition experiments on tumor slices confirm the potential of both compounds as specific imaging probes for the PD-1/PD-L1 axis in tumors. The in vitro evaluation in PD-L1 expressing cells together with results from autoradiographic analysis in PD-L1 positive tumor sections, suggest that [18F]2 and [18F]3 could be potential imaging probes for assessing PD-L1 expression in tumors and warrant further biological evaluations in vivo.

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