2-Nitroimidazole-Furanoside Derivatives for Hypoxia Imaging—Investigation of Nucleoside Transporter Interaction, (18)F-Labeling and Preclinical PET Imaging

The benefits of PET imaging of tumor hypoxia in patient management has been demonstrated in many examples and with various tracers over the last years. Although, the optimal hypoxia imaging agent has yet to be found, 2-nitroimidazole (azomycin) sugar derivatives—mimicking nucleosides—have proven the...

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Autores principales: Maier, Florian C., Schweifer, Anna, Damaraju, Vijaya L., Cass, Carol E., Bowden, Gregory D., Ehrlichmann, Walter, Kneilling, Manfred, Pichler, Bernd J., Hammerschmidt, Friedrich, Reischl, Gerald
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2019
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6469291/
https://www.ncbi.nlm.nih.gov/pubmed/30781409
http://dx.doi.org/10.3390/ph12010031
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author Maier, Florian C.
Schweifer, Anna
Damaraju, Vijaya L.
Cass, Carol E.
Bowden, Gregory D.
Ehrlichmann, Walter
Kneilling, Manfred
Pichler, Bernd J.
Hammerschmidt, Friedrich
Reischl, Gerald
author_facet Maier, Florian C.
Schweifer, Anna
Damaraju, Vijaya L.
Cass, Carol E.
Bowden, Gregory D.
Ehrlichmann, Walter
Kneilling, Manfred
Pichler, Bernd J.
Hammerschmidt, Friedrich
Reischl, Gerald
author_sort Maier, Florian C.
collection PubMed
description The benefits of PET imaging of tumor hypoxia in patient management has been demonstrated in many examples and with various tracers over the last years. Although, the optimal hypoxia imaging agent has yet to be found, 2-nitroimidazole (azomycin) sugar derivatives—mimicking nucleosides—have proven their potential with [(18)F]FAZA ([(18)F]fluoro-azomycin-α-arabinoside) as a prominent representative in clinical use. Still, for all of these tracers, cellular uptake by passive diffusion is postulated with the disadvantage of slow kinetics and low tumor-to-background ratios. We recently evaluated [(18)F]fluoro-azomycin-β-deoxyriboside (β-[(18)F]FAZDR), with a structure more similar to nucleosides than [(18)F]FAZA and possible interaction with nucleoside transporters. For a deeper insight, we comparatively studied the interaction of FAZA, β-FAZA, α-FAZDR and β-FAZDR with nucleoside transporters (SLC29A1/2 and SLC28A1/2/3) in vitro, showing variable interactions of the compounds. The highest interactions being for β-FAZDR (IC(50) 124 ± 33 µM for SLC28A3), but also for FAZA with the non-nucleosidic α-configuration, the interactions were remarkable (290 ± 44 µM {SLC28A1}; 640 ± 10 µM {SLC28A2}). An improved synthesis was developed for β-FAZA. For a PET study in tumor-bearing mice, α-[(18)F]FAZDR was synthesized (radiochemical yield: 15.9 ± 9.0% (n = 3), max. 10.3 GBq, molar activity > 50 GBq/µmol) and compared to β-[(18)F]FAZDR and [(18)F]FMISO, the hypoxia imaging gold standard. We observed highest tumor-to-muscle ratios (TMR) for β-[(18)F]FAZDR already at 1 h p.i. (2.52 ± 0.94, n = 4) in comparison to [(18)F]FMISO (1.37 ± 0.11, n = 5) and α-[(18)F]FAZDR (1.93 ± 0.39, n = 4), with possible mediation by the involvement of nucleoside transporters. After 3 h p.i., TMR were not significantly different for all 3 tracers (2.5–3.0). Highest clearance from tumor tissue was observed for β-[(18)F]FAZDR (56.6 ± 6.8%, 2 h p.i.), followed by α-[(18)F]FAZDR (34.2 ± 7.5%) and [(18)F]FMISO (11.8 ± 6.5%). In conclusion, both isomers of [(18)F]FAZDR showed their potential as PET hypoxia tracers. Differences in uptake behavior may be attributed to a potential variable involvement of transport mechanisms.
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spelling pubmed-64692912019-04-24 2-Nitroimidazole-Furanoside Derivatives for Hypoxia Imaging—Investigation of Nucleoside Transporter Interaction, (18)F-Labeling and Preclinical PET Imaging Maier, Florian C. Schweifer, Anna Damaraju, Vijaya L. Cass, Carol E. Bowden, Gregory D. Ehrlichmann, Walter Kneilling, Manfred Pichler, Bernd J. Hammerschmidt, Friedrich Reischl, Gerald Pharmaceuticals (Basel) Article The benefits of PET imaging of tumor hypoxia in patient management has been demonstrated in many examples and with various tracers over the last years. Although, the optimal hypoxia imaging agent has yet to be found, 2-nitroimidazole (azomycin) sugar derivatives—mimicking nucleosides—have proven their potential with [(18)F]FAZA ([(18)F]fluoro-azomycin-α-arabinoside) as a prominent representative in clinical use. Still, for all of these tracers, cellular uptake by passive diffusion is postulated with the disadvantage of slow kinetics and low tumor-to-background ratios. We recently evaluated [(18)F]fluoro-azomycin-β-deoxyriboside (β-[(18)F]FAZDR), with a structure more similar to nucleosides than [(18)F]FAZA and possible interaction with nucleoside transporters. For a deeper insight, we comparatively studied the interaction of FAZA, β-FAZA, α-FAZDR and β-FAZDR with nucleoside transporters (SLC29A1/2 and SLC28A1/2/3) in vitro, showing variable interactions of the compounds. The highest interactions being for β-FAZDR (IC(50) 124 ± 33 µM for SLC28A3), but also for FAZA with the non-nucleosidic α-configuration, the interactions were remarkable (290 ± 44 µM {SLC28A1}; 640 ± 10 µM {SLC28A2}). An improved synthesis was developed for β-FAZA. For a PET study in tumor-bearing mice, α-[(18)F]FAZDR was synthesized (radiochemical yield: 15.9 ± 9.0% (n = 3), max. 10.3 GBq, molar activity > 50 GBq/µmol) and compared to β-[(18)F]FAZDR and [(18)F]FMISO, the hypoxia imaging gold standard. We observed highest tumor-to-muscle ratios (TMR) for β-[(18)F]FAZDR already at 1 h p.i. (2.52 ± 0.94, n = 4) in comparison to [(18)F]FMISO (1.37 ± 0.11, n = 5) and α-[(18)F]FAZDR (1.93 ± 0.39, n = 4), with possible mediation by the involvement of nucleoside transporters. After 3 h p.i., TMR were not significantly different for all 3 tracers (2.5–3.0). Highest clearance from tumor tissue was observed for β-[(18)F]FAZDR (56.6 ± 6.8%, 2 h p.i.), followed by α-[(18)F]FAZDR (34.2 ± 7.5%) and [(18)F]FMISO (11.8 ± 6.5%). In conclusion, both isomers of [(18)F]FAZDR showed their potential as PET hypoxia tracers. Differences in uptake behavior may be attributed to a potential variable involvement of transport mechanisms. MDPI 2019-02-15 /pmc/articles/PMC6469291/ /pubmed/30781409 http://dx.doi.org/10.3390/ph12010031 Text en © 2019 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (http://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Maier, Florian C.
Schweifer, Anna
Damaraju, Vijaya L.
Cass, Carol E.
Bowden, Gregory D.
Ehrlichmann, Walter
Kneilling, Manfred
Pichler, Bernd J.
Hammerschmidt, Friedrich
Reischl, Gerald
2-Nitroimidazole-Furanoside Derivatives for Hypoxia Imaging—Investigation of Nucleoside Transporter Interaction, (18)F-Labeling and Preclinical PET Imaging
title 2-Nitroimidazole-Furanoside Derivatives for Hypoxia Imaging—Investigation of Nucleoside Transporter Interaction, (18)F-Labeling and Preclinical PET Imaging
title_full 2-Nitroimidazole-Furanoside Derivatives for Hypoxia Imaging—Investigation of Nucleoside Transporter Interaction, (18)F-Labeling and Preclinical PET Imaging
title_fullStr 2-Nitroimidazole-Furanoside Derivatives for Hypoxia Imaging—Investigation of Nucleoside Transporter Interaction, (18)F-Labeling and Preclinical PET Imaging
title_full_unstemmed 2-Nitroimidazole-Furanoside Derivatives for Hypoxia Imaging—Investigation of Nucleoside Transporter Interaction, (18)F-Labeling and Preclinical PET Imaging
title_short 2-Nitroimidazole-Furanoside Derivatives for Hypoxia Imaging—Investigation of Nucleoside Transporter Interaction, (18)F-Labeling and Preclinical PET Imaging
title_sort 2-nitroimidazole-furanoside derivatives for hypoxia imaging—investigation of nucleoside transporter interaction, (18)f-labeling and preclinical pet imaging
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6469291/
https://www.ncbi.nlm.nih.gov/pubmed/30781409
http://dx.doi.org/10.3390/ph12010031
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