Light‐Driven Radiochemistry with Fluorine‐18, Carbon‐11 and Zirconium‐89

Author:

Lin Daniel12ORCID,Lechermann Laura M.1,Huestis Malcolm P.3,Marik Jan13,Sap Jeroen B. I.1ORCID

Affiliation:

1. Department of Translational Imaging Genentech, Inc. 1 DNA Way South San Francisco CA 94080 USA

2. Current address: University of Southern California Department of Chemistry Loker Hydrocarbon Research Institute 837 Bloom Walk Los Angeles CA 90089 USA

3. Discovery Chemistry Genentech, Inc. DNA Way South San Francisco CA 94080 USA

Abstract

AbstractThis review discusses recent advances in light‐driven radiochemistry for three key isotopes: fluorine‐18, carbon‐11, and zirconium‐89, and their applications in positron emission tomography (PET). In the case of fluorine‐18, the predominant approach involves the use of cyclotron‐produced [18F]fluoride or reagents derived thereof. Light serves to activate either the substrate or the fluorine‐18 labeled reagent. Advancements in carbon‐11 photo‐mediated radiochemistry have been leveraged for the radiolabeling of small molecules, achieving various transformations, including 11C‐methylation, 11C‐carboxylation, 11C‐carbonylation, and 11C‐cyanation. Contrastingly, zirconium‐89 photo‐mediated radiochemistry differs from fluorine‐18 and carbon‐11 approaches. In these cases, light facilitates a postlabeling click reaction, which has proven valuable for the labeling of large biomolecules such as monoclonal antibodies (mAbs). New technological developments, such as the incorporation of photoreactors in commercial radiosynthesizers, illustrate the commitment the field is making in embracing photochemistry. Taken together, these advances in photo‐mediated radiochemistry enable radiochemists to apply new retrosynthetic strategies in accessing novel PET radiotracers.

Publisher

Wiley

Subject

General Chemistry,Catalysis

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