Radiosynthesis and validation of (&#x00B1;)-[ 18 F]-3-fluoro-2-hydroxypropionate ([ 18 F]-FLac) as a PET tracer of lactate to monitor MCT1-dependent lactate uptake in tumors

Vincent F. Van Hée; Daniel Labar; Gwenaël Dehon; Debora Grasso; Vincent Grégoire; Giulio G. Muccioli; Raphaël Frédérick; Pierre Sonveaux

doi:10.18632/oncotarget.14705

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Research Papers:

Radiosynthesis and validation of (±)-[¹⁸F]-3-fluoro-2-hydroxypropionate ([¹⁸F]-FLac) as a PET tracer of lactate to monitor MCT1-dependent lactate uptake in tumors

Vincent F. Van Hée, Daniel Labar, Gwenaël Dehon, Debora Grasso, Vincent Grégoire, Giulio G. Muccioli, Raphaël Frédérick _ and Pierre Sonveaux

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Oncotarget. 2017; 8:24415-24428. https://doi.org/10.18632/oncotarget.14705

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Abstract

Vincent F. Van Hée1, Daniel Labar2, Gwenaël Dehon3, Debora Grasso1, Vincent Grégoire2, Giulio G. Muccioli3, Raphaël Frédérick3,*, Pierre Sonveaux1,*

1Pole of Pharmacology, Institut de Recherche Expérimentale et Clinique (IREC), Université Catholique de Louvain (UCL), B-1200 Brussels, Belgium

2Pole of Molecular Imaging, Radiotherapy and Oncology, Institut de Recherche Expérimentale et Clinique (IREC), Université Catholique de Louvain (UCL), B-1200 Brussels, Belgium

3Louvain Drug Research Institute (LDRI), Université Catholique de Louvain (UCL), B-1200 Brussels, Belgium

*These authors contributed equally to this work and share the last authorship

Correspondence to:

Raphaël Frédérick, email: [email protected]

Pierre Sonveaux, email: [email protected]

Keywords: cancer metabolism, metabolic symbiosis, monocarboxylate transporter 1 (MCT1), MCT inhibitors, positron emission tomography (PET)

Received: August 10, 2016 Accepted: December 26, 2016 Published: January 17, 2017

ABSTRACT

Cancers develop metabolic strategies to cope with their microenvironment often characterized by hypoxia, limited nutrient bioavailability and exposure to anticancer treatments. Among these strategies, the metabolic symbiosis based on the exchange of lactate between hypoxic/glycolytic cancer cells that convert glucose to lactate and oxidative cancer cells that preferentially use lactate as an oxidative fuel optimizes the bioavailability of glucose to hypoxic cancer cells. This metabolic cooperation has been described in various human cancers and can provide resistance to anti-angiogenic therapies. It depends on the expression and activity of monocarboxylate transporters (MCTs) at the cell membrane. MCT4 is the main facilitator of lactate export by glycolytic cancer cells, and MCT1 is adapted for lactate uptake by oxidative cancer cells. While MCT1 inhibitor AZD3965 is currently tested in phase I clinical trials and other inhibitors of lactate metabolism have been developed for anticancer therapy, predicting and monitoring a response to the inhibition of lactate uptake is still an unmet clinical need. Here, we report the synthesis, evaluation and in vivo validation of (±)-[¹⁸F]-3-fluoro-2-hydroxypropionate ([¹⁸F]-FLac) as a tracer of lactate for positron emission tomography. [¹⁸F]-FLac offers the possibility to monitor MCT1-dependent lactate uptake and inhibition in tumors in vivo.

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Research Papers:

Radiosynthesis and validation of (±)-[18F]-3-fluoro-2-hydroxypropionate ([18F]-FLac) as a PET tracer of lactate to monitor MCT1-dependent lactate uptake in tumors

Abstract

Radiosynthesis and validation of (±)-[¹⁸F]-3-fluoro-2-hydroxypropionate ([¹⁸F]-FLac) as a PET tracer of lactate to monitor MCT1-dependent lactate uptake in tumors