Distributable, Metabolic PET Reporting of Tuberculosis

• Published in: bioRxiv
• Main Authors: Naseer Khan, R M, Ahn, Yong-Mo, Marriner, Gwendolyn A, Via, Laura E, D'Hooge, Francois, Lee, Seung Seo, Yang, Nan, Basuli, Falguni, White, Alexander G, Tomko, Jaime A, Frye, L James, Scanga, Charles A, Weiner, Danielle M, Sutphen, Michelle L, Schimel, Daniel M, Dayao, Emmanuel, Piazza, Michaela K, Gomez, Felipe, Dieckmann, William, Herscovitch, Peter, Mason, N Scott, Swenson, Rolf, Kiesewetter, Dale O, Backus, Keriann M, Geng, Yiqun, Raj, Ritu, Anthony, Daniel C, Flynn, JoAnne L, Barry, 3rd, Clifton E, Davis, Benjamin G
• Format: Journal Article
• Language: English
• Published: United States 03.04.2023
• ISSN: 2692-8205; 2692-8205
• DOI: 10.1101/2023.04.03.535218

Tuberculosis remains a large global disease burden for which treatment regimens are protracted and monitoring of disease activity difficult. Existing detection methods rely almost exclusively on bacterial culture from sputum which limits sampling to organisms on the pulmonary surface. Advances in monitoring tuberculous lesions have utilized the common glucoside [ F]FDG, yet lack specificity to the causative pathogen ( ) and so do not directly correlate with pathogen viability. Here we show that a close mimic that is also positron-emitting of the non-mammalian disaccharide trehalose - 2-[ F]fluoro-2-deoxytrehalose ([ F]FDT) - can act as a mechanism-based enzyme reporter in vivo. Use of [ F]FDT in the imaging of in diverse models of disease, including non-human primates, successfully co-opts -specific processing of trehalose to allow the specific imaging of TB-associated lesions and to monitor the effects of treatment. A pyrogen-free, direct enzyme-catalyzed process for its radiochemical synthesis allows the ready production of [ F]FDT from the most globally-abundant organic F-containing molecule, [ F]FDG. The full, pre-clinical validation of both production method and [ F]FDT now creates a new, bacterium-specific, clinical diagnostic candidate. We anticipate that this distributable technology to generate clinical-grade [ F]FDT directly from the widely-available clinical reagent [ F]FDG, without need for either bespoke radioisotope generation or specialist chemical methods and/or facilities, could now usher in global, democratized access to a TB-specific PET tracer.