Synthesis of high-molar-activity [18F]6-fluoro-L-DOPA suitable for human use via Cu-mediated fluorination of a BPin precursor

doi:10.1038/s41596-020-0305-9

. 2020 May;15(5):1742-1759.

doi: 10.1038/s41596-020-0305-9. Epub 2020 Apr 8.

Synthesis of high-molar-activity [¹⁸F]6-fluoro-L-DOPA suitable for human use via Cu-mediated fluorination of a BPin precursor

Andrew V Mossine^{1

2}, Sean S Tanzey³, Allen F Brooks¹, Katarina J Makaravage^{4

5}, Naoko Ichiishi^{4

6}, Jason M Miller^{3

7}, Bradford D Henderson¹, Thomas Erhard⁸, Christian Bruetting⁸, Marc B Skaddan⁹, Melanie S Sanford¹⁰, Peter J H Scott^{11

12}

Affiliations

¹ Department of Radiology, University of Michigan, Ann Arbor, MI, USA.
² Curium Pharma, Nuclear Medicine Manufacturing, Noblesville, IN, USA.
³ Department of Medicinal Chemistry, University of Michigan, Ann Arbor, MI, USA.
⁴ Department of Chemistry, University of Michigan, Ann Arbor, MI, USA.
⁵ Gordon Center for Medical Imaging, Massachusetts General Hospital, Harvard Medical School, Cambridge, MA, USA.
⁶ Takeda Pharmaceuticals International Co., Process Chemistry, Boston, MA, USA.
⁷ Environmental Analysis Branch, US Army Corps of Engineers, Detroit, MI, USA.
⁸ AbbVie Deustschland GmbH & Co. KG Ludwigschafen, Ludwigshafen, Germany.
⁹ AbbVie Translational Imaging, North Chicago, IL, USA.
¹⁰ Department of Chemistry, University of Michigan, Ann Arbor, MI, USA. mssanfor@umich.edu.
¹¹ Department of Radiology, University of Michigan, Ann Arbor, MI, USA. pjhscott@umich.edu.
¹² Department of Medicinal Chemistry, University of Michigan, Ann Arbor, MI, USA. pjhscott@umich.edu.

PMID: 32269382
PMCID: PMC7333241
DOI: 10.1038/s41596-020-0305-9

Free PMC article

Synthesis of high-molar-activity [¹⁸F]6-fluoro-L-DOPA suitable for human use via Cu-mediated fluorination of a BPin precursor

Andrew V Mossine et al. Nat Protoc. 2020 May.

Free PMC article

. 2020 May;15(5):1742-1759.

doi: 10.1038/s41596-020-0305-9. Epub 2020 Apr 8.

Authors

Affiliations

¹ Department of Radiology, University of Michigan, Ann Arbor, MI, USA.
² Curium Pharma, Nuclear Medicine Manufacturing, Noblesville, IN, USA.
³ Department of Medicinal Chemistry, University of Michigan, Ann Arbor, MI, USA.
⁴ Department of Chemistry, University of Michigan, Ann Arbor, MI, USA.
⁵ Gordon Center for Medical Imaging, Massachusetts General Hospital, Harvard Medical School, Cambridge, MA, USA.
⁶ Takeda Pharmaceuticals International Co., Process Chemistry, Boston, MA, USA.
⁷ Environmental Analysis Branch, US Army Corps of Engineers, Detroit, MI, USA.
⁸ AbbVie Deustschland GmbH & Co. KG Ludwigschafen, Ludwigshafen, Germany.
⁹ AbbVie Translational Imaging, North Chicago, IL, USA.
¹⁰ Department of Chemistry, University of Michigan, Ann Arbor, MI, USA. mssanfor@umich.edu.
¹¹ Department of Radiology, University of Michigan, Ann Arbor, MI, USA. pjhscott@umich.edu.
¹² Department of Medicinal Chemistry, University of Michigan, Ann Arbor, MI, USA. pjhscott@umich.edu.

PMID: 32269382
PMCID: PMC7333241
DOI: 10.1038/s41596-020-0305-9

Abstract

[¹⁸F]6-fluoro-L-DOPA ([¹⁸F]FDOPA) is a diagnostic radiopharmaceutical for positron emission tomography (PET) imaging that is used to image Parkinson's disease, brain tumors, and focal hyperinsulinism of infancy. Despite these important applications, [¹⁸F]FDOPA PET remains underutilized because of synthetic challenges associated with accessing the radiotracer for clinical use; these stem from the need to radiofluorinate a highly electron-rich catechol ring in the presence of an amino acid. To address this longstanding challenge in the PET radiochemistry community, we have developed a one-pot, two-step synthesis of high-molar-activity [¹⁸F]FDOPA by Cu-mediated fluorination of a pinacol boronate (BPin) precursor. The method is fully automated, has been validated to work well at two separate sites (an academic facility with a cyclotron on site and an industry lab purchasing [¹⁸F]fluoride from an outside vendor), and provides [¹⁸F]FDOPA in reasonable radiochemical yield (2.44 ± 0.70 GBq, 66 ± 19 mCi, 5 ± 1%), excellent radiochemical purity (>98%) and high molar activity (76 ± 30 TBq/mmol, 2,050 ± 804 Ci/mmol), n = 26. Herein we report a detailed protocol for the synthesis of [¹⁸F]FDOPA that has been successfully implemented at two sites and validated for production of the radiotracer for human use.

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Conflict of interest statement

COMPETING FINANCIAL INTERESTS All authors declare no competing financial interests.

Figures

**Figure 1 |**
Radiosyntheses of [¹⁸F]FDOPA and motivation for this work (adapted from Ref. with permission from The Royal Society of Chemistry).

**Figure 2 |**
Radiosyntheses of [¹⁸F]FDOPA and the TRACERLab automated synthesis module (synthesis module schematics (Supplementary Figures 1 and 2) and timelists (Supplementary Method 1) are provided in the Supplementary Information).

**Figure 3 |**
Semi-preparative HPLC traces for [¹⁸F]FDOPA prepared using A: the one-pot method (Reproduced from Ref. with permission from The Royal Society of Chemistry), and B: the alternate one-pot method with HLB purification between fluorination and deprotection

**Figure 4|**
Analytical HPLC trace of [¹⁸F]FDOPA using a Luna NH₂ analytical column (RAD top, 282nm UV bottom). Reproduced from Ref. with permission from The Royal Society of Chemistry.

**Figure 5|**
Chiral HPLC trace of production [¹⁸F]FDOPA (RAD, bottom, black) 6F-D,L-DOPA reference standard (282nm, teal, middle) and 6F-L-DOPA reference standard (282nm, pink, top) using a Chirobiotic T analytical column. Reproduced from Ref. with permission from The Royal Society of Chemistry.

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References

1. Ametamey SM et al. Molecular Imaging with PET. Chem. Rev 108, 1501–1516 (2008). - PubMed
1. Taïeb D et al. 18F-DOPA: the versatile radiopharmaceutical. Eur. J. Nucl. Med. Mol. Imaging 43, 1187–1189 (2016). - PMC - PubMed
1. Pretze M et al. 6-[18F]Fluoro-L-DOPA: a well-established neurotracer with expanding application spectrum and strongly improved radiosyntheses. Biomed. Res. Int. Article 674063 (2014). - PMC - PubMed
1. Garnett ES et al. Dopamine visualized in the basal ganglia of living man. Nature 305, 137–138 (1983). - PubMed
1. Darcourt J et al. 18F-FDOPA PET for the diagnosis of parkinsonian syndromes. Q. J. Nucl. Med. Mol. Imaging 58, 355–365 (2014). - PubMed

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[1] Ametamey SM et al. Molecular Imaging with PET. Chem. Rev 108, 1501–1516 (2008). - PubMed

[2] Ametamey SM et al. Molecular Imaging with PET. Chem. Rev 108, 1501–1516 (2008). - PubMed

[3] Taïeb D et al. 18F-DOPA: the versatile radiopharmaceutical. Eur. J. Nucl. Med. Mol. Imaging 43, 1187–1189 (2016). - PMC - PubMed

[4] Taïeb D et al. 18F-DOPA: the versatile radiopharmaceutical. Eur. J. Nucl. Med. Mol. Imaging 43, 1187–1189 (2016). - PMC - PubMed

[5] Pretze M et al. 6-[18F]Fluoro-L-DOPA: a well-established neurotracer with expanding application spectrum and strongly improved radiosyntheses. Biomed. Res. Int. Article 674063 (2014). - PMC - PubMed

[6] Pretze M et al. 6-[18F]Fluoro-L-DOPA: a well-established neurotracer with expanding application spectrum and strongly improved radiosyntheses. Biomed. Res. Int. Article 674063 (2014). - PMC - PubMed

[7] Garnett ES et al. Dopamine visualized in the basal ganglia of living man. Nature 305, 137–138 (1983). - PubMed

[8] Garnett ES et al. Dopamine visualized in the basal ganglia of living man. Nature 305, 137–138 (1983). - PubMed

[9] Darcourt J et al. 18F-FDOPA PET for the diagnosis of parkinsonian syndromes. Q. J. Nucl. Med. Mol. Imaging 58, 355–365 (2014). - PubMed

[10] Darcourt J et al. 18F-FDOPA PET for the diagnosis of parkinsonian syndromes. Q. J. Nucl. Med. Mol. Imaging 58, 355–365 (2014). - PubMed

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Synthesis of high-molar-activity [¹⁸F]6-fluoro-L-DOPA suitable for human use via Cu-mediated fluorination of a BPin precursor

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Synthesis of high-molar-activity [¹⁸F]6-fluoro-L-DOPA suitable for human use via Cu-mediated fluorination of a BPin precursor

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