Radiosyntheses using Fluorine-18: The Art and Science of Late Stage Fluorination

Cole, Erin L.; Stewart, Megan N.; Littich, Ryan; Hoareau, Raphaël; Scott, Peter J. H.

doi:10.2174/1568026614666140202205035

Cited by 123 publications

(96 citation statements)

References 178 publications

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“…The development of new 18 F-based radiotracers remains an ongoing goal in the field of radiopharmacy and provides tools for specific cancer diagnostics using positron emission tomography (PET) [31–33]. When radiotracers are based on tumor-specific peptides, proteins or antibodies [34–35], mild and fast methods for radiolabeling are mandatory because of the short half-live of [ 18 F]fluoride ( t 1/2 : 110 min).…”

Section: Resultsmentioning

confidence: 99%

Synthesis, dynamic NMR characterization and XRD studies of novel N,N’-substituted piperazines for bioorthogonal labeling

Mamat

Pretze

Gott

et al. 2016

Beilstein J. Org. Chem.

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Novel, functionalized piperazine derivatives were successfully synthesized and fully characterized by 1H/13C/19F NMR, MS, elemental analysis and lipophilicity. All piperazine compounds occur as conformers resulting from the partial amide double bond. Furthermore, a second conformational shape was observed for all nitro derivatives due to the limited change of the piperazine chair conformation. Therefore, two coalescence points were determined and their resulting activation energy barriers were calculated using 1H NMR. To support this result, single crystals of 1-(4-nitrobenzoyl)piperazine (3a, monoclinic, space group C2/c, a = 24.587(2), b = 7.0726(6), c = 14.171(1) Å, β = 119.257(8)°, V = 2149.9(4) Å3, Z = 4, D obs = 1.454 g/cm3) and the alkyne derivative 4-(but-3-yn-1-yl)-1-(4-fluorobenzoyl)piperazine (4b, monoclinic, space group P21/n, a = 10.5982(2), b = 8.4705(1), c = 14.8929(3) Å, β = 97.430(1)°, V = 1325.74(4) Å3, Z = 4, D obs = 1.304 g/cm3) were obtained from a saturated ethyl acetate solution. The rotational conformation of these compounds was also verified by XRD. As proof of concept for future labeling purposes, both nitropiperazines were reacted with [18F]F–. To test the applicability of these compounds as possible 18F-building blocks, two biomolecules were modified and chosen for conjugation either using the Huisgen-click reaction or the traceless Staudinger ligation.

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Section: Resultsmentioning

confidence: 99%

Synthesis, dynamic NMR characterization and XRD studies of novel N,N’-substituted piperazines for bioorthogonal labeling

Mamat

Pretze

Gott

et al. 2016

Beilstein J. Org. Chem.

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“…In addition, 18 F is also a low positron emission energy emitter giving a good spatial resolution for imaging. All these factors make it the optimal radioisotope for PET imaging and much effort has been put into the discovery of novel and efficient routes towards synthesis of novel 18 F-PET tracers [7][8] [9]. The glucose analogue 2-…”

Section: Figure 3 North and South Conformation Of Two Anomers Of F-ddamentioning

confidence: 99%

“…is the most ubiquitous PET tracer with multiple applications in oncology, cardiology and neurology [9][10]. However, also many 18 Fnucleoside analogues are currently under clinical investigation as proliferation biomarkers, reporter imaging probes for personalised medicine and prediction tools of the response to nucleoside analogue chemotherapy [11].…”

Section: Figure 3 North and South Conformation Of Two Anomers Of F-ddamentioning

confidence: 99%

Fluorinated Nucleosides as an Important Class of Anticancer and Antiviral Agents

et al. 2017

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Fluorine-containing nucleoside analogues represent a significant class of FDA approved chemotherapeutics widely used in the clinic. The incorporation of fluorine into drug-like agents modulates lipophilic, electronic and steric parameters thus influencing pharmacodynamic and pharmacokinetic properties of drugs. Fluorine can block oxidative metabolism of drugs and the formation of undesired metabolites by changing H-bonding interactions. In this review, we focus our attention on chemical fluorination reagents and methods used in the nucleoside analogues field, including PET radiochemistry. We briefly discuss both the cellular biology and clinical properties of FDA-approved and fluorine-containing nucleoside/nucleotide analogues in development as well as common resistance mechanisms associated with their use. Finally, we emphasize pro-nucleotide strategies used to improve therapeutic outcome of nucleoside analogues in the clinic.

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“…Due to the large scope of substrates and operational simplicity, this transformation should facilitate the drug discovery process. For more details on PET imaging agents, the reader is referred to an alternate article [33]. …”

Section: ) Fluorination By Decarboxylative Reagentsmentioning

confidence: 99%

Decarboxylative Fluorination Strategies for Accessing Medicinally- Relevant Products

Qiao¹,

Zhu²,

Ambler³

et al. 2014

CTMC

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Fluorinated organic compounds have a long history in medicinal chemistry, and synthetic methods to access target fluorinated compounds are undergoing a revolution. One powerful strategy for the installation of fluorine-containing functional groups includes decarboxylative reactions. Benefits of decarboxylative approaches potentially include: 1) readily available substrates or reagents 2) mild reaction conditions; 3) simplified purification. This focus review highlights the applications of decarboxylation strategies for fluorination reactions to access compounds with biomedical potential. The manuscript highlights on two general strategies, fluorination by decarboxylative reagents and by decarboxylation of substrates. Where relevant, examples of medicinally useful compounds that can be accessed using these strategies are highlighted.

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Radiosyntheses using Fluorine-18: The Art and Science of Late Stage Fluorination

Cited by 123 publications

References 178 publications

Synthesis, dynamic NMR characterization and XRD studies of novel N,N’-substituted piperazines for bioorthogonal labeling

Synthesis, dynamic NMR characterization and XRD studies of novel N,N’-substituted piperazines for bioorthogonal labeling

Fluorinated Nucleosides as an Important Class of Anticancer and Antiviral Agents

Decarboxylative Fluorination Strategies for Accessing Medicinally- Relevant Products

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