Targeting Metal-Aβ Aggregates with Bifunctional Radioligand [(11)C]L2-b and a Fluorine-18 Analogue [(18)F]FL2-b

[Image: see text] Interest in quantifying metal-Aβ species in vivo led to the synthesis and evaluation of [(11)C]L2-b and [(18)F]FL2-b as radiopharmaceuticals for studying the metallobiology of Alzheimer’s disease (AD) using positron emission tomography (PET) imaging. [(11)C]L2-b was synthesized in...

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Autores principales: Cary, Brian P., Brooks, Allen F., Fawaz, Maria V., Shao, Xia, Desmond, Timothy J., Carpenter, Garrett M., Sherman, Phillip, Quesada, Carole A., Albin, Roger L., Scott, Peter J. H.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: American Chemical Society 2014
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4329991/
https://www.ncbi.nlm.nih.gov/pubmed/25705326
http://dx.doi.org/10.1021/ml500413d
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author Cary, Brian P.
Brooks, Allen F.
Fawaz, Maria V.
Shao, Xia
Desmond, Timothy J.
Carpenter, Garrett M.
Sherman, Phillip
Quesada, Carole A.
Albin, Roger L.
Scott, Peter J. H.
author_facet Cary, Brian P.
Brooks, Allen F.
Fawaz, Maria V.
Shao, Xia
Desmond, Timothy J.
Carpenter, Garrett M.
Sherman, Phillip
Quesada, Carole A.
Albin, Roger L.
Scott, Peter J. H.
author_sort Cary, Brian P.
collection PubMed
description [Image: see text] Interest in quantifying metal-Aβ species in vivo led to the synthesis and evaluation of [(11)C]L2-b and [(18)F]FL2-b as radiopharmaceuticals for studying the metallobiology of Alzheimer’s disease (AD) using positron emission tomography (PET) imaging. [(11)C]L2-b was synthesized in 3.6% radiochemical yield (nondecay corrected, n = 3), >95% radiochemical purity, from the corresponding desmethyl precursor. [(18)F]FL2-b was synthesized in 1.0% radiochemical yield (nondecay corrected, n = 3), >99% radiochemical purity, from a 6-chloro pyridine precursor. Autoradiography experiments with AD positive and healthy control brain samples were used to determine the specificity of binding for the radioligands compared to [(11)C]PiB, a known imaging agent for β-amyloid (Aβ) aggregates. The K(d) for [(11)C]L2-b and [(18)F]FL2-b were found to be 3.5 and 9.4 nM, respectively, from those tissue studies. Displacement studies of [(11)C]L2-b and [(18)F]FL2-b with PiB and AV-45 determined that L2-b binds to Aβ aggregates differently from known radiopharmaceuticals. Finally, brain uptake of [(11)C]L2-b was examined through microPET imaging in healthy rhesus macaque, which revealed a maximum uptake at 2.5 min (peak SUV = 2.0) followed by rapid egress (n = 2).
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spelling pubmed-43299912015-11-09 Targeting Metal-Aβ Aggregates with Bifunctional Radioligand [(11)C]L2-b and a Fluorine-18 Analogue [(18)F]FL2-b Cary, Brian P. Brooks, Allen F. Fawaz, Maria V. Shao, Xia Desmond, Timothy J. Carpenter, Garrett M. Sherman, Phillip Quesada, Carole A. Albin, Roger L. Scott, Peter J. H. ACS Med Chem Lett [Image: see text] Interest in quantifying metal-Aβ species in vivo led to the synthesis and evaluation of [(11)C]L2-b and [(18)F]FL2-b as radiopharmaceuticals for studying the metallobiology of Alzheimer’s disease (AD) using positron emission tomography (PET) imaging. [(11)C]L2-b was synthesized in 3.6% radiochemical yield (nondecay corrected, n = 3), >95% radiochemical purity, from the corresponding desmethyl precursor. [(18)F]FL2-b was synthesized in 1.0% radiochemical yield (nondecay corrected, n = 3), >99% radiochemical purity, from a 6-chloro pyridine precursor. Autoradiography experiments with AD positive and healthy control brain samples were used to determine the specificity of binding for the radioligands compared to [(11)C]PiB, a known imaging agent for β-amyloid (Aβ) aggregates. The K(d) for [(11)C]L2-b and [(18)F]FL2-b were found to be 3.5 and 9.4 nM, respectively, from those tissue studies. Displacement studies of [(11)C]L2-b and [(18)F]FL2-b with PiB and AV-45 determined that L2-b binds to Aβ aggregates differently from known radiopharmaceuticals. Finally, brain uptake of [(11)C]L2-b was examined through microPET imaging in healthy rhesus macaque, which revealed a maximum uptake at 2.5 min (peak SUV = 2.0) followed by rapid egress (n = 2). American Chemical Society 2014-11-09 /pmc/articles/PMC4329991/ /pubmed/25705326 http://dx.doi.org/10.1021/ml500413d Text en Copyright © 2014 American Chemical Society
spellingShingle Cary, Brian P.
Brooks, Allen F.
Fawaz, Maria V.
Shao, Xia
Desmond, Timothy J.
Carpenter, Garrett M.
Sherman, Phillip
Quesada, Carole A.
Albin, Roger L.
Scott, Peter J. H.
Targeting Metal-Aβ Aggregates with Bifunctional Radioligand [(11)C]L2-b and a Fluorine-18 Analogue [(18)F]FL2-b
title Targeting Metal-Aβ Aggregates with Bifunctional Radioligand [(11)C]L2-b and a Fluorine-18 Analogue [(18)F]FL2-b
title_full Targeting Metal-Aβ Aggregates with Bifunctional Radioligand [(11)C]L2-b and a Fluorine-18 Analogue [(18)F]FL2-b
title_fullStr Targeting Metal-Aβ Aggregates with Bifunctional Radioligand [(11)C]L2-b and a Fluorine-18 Analogue [(18)F]FL2-b
title_full_unstemmed Targeting Metal-Aβ Aggregates with Bifunctional Radioligand [(11)C]L2-b and a Fluorine-18 Analogue [(18)F]FL2-b
title_short Targeting Metal-Aβ Aggregates with Bifunctional Radioligand [(11)C]L2-b and a Fluorine-18 Analogue [(18)F]FL2-b
title_sort targeting metal-aβ aggregates with bifunctional radioligand [(11)c]l2-b and a fluorine-18 analogue [(18)f]fl2-b
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4329991/
https://www.ncbi.nlm.nih.gov/pubmed/25705326
http://dx.doi.org/10.1021/ml500413d
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