Quantification of Macrophage-Driven Inflammation During Myocardial Infarction with (18)F-LW223, a Novel TSPO Radiotracer with Binding Independent of the rs6971 Human Polymorphism

Myocardial infarction (MI) is one of the leading causes of death worldwide, and inflammation is central to tissue response and patient outcomes. The 18-kDa translocator protein (TSPO) has been used in PET as an inflammatory biomarker. The aims of this study were to screen novel, fluorinated, TSPO ra...

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Autores principales: MacAskill, Mark G., Stadulyte, Agne, Williams, Lewis, Morgan, Timaeus E.F., Sloan, Nikki L., Alcaide-Corral, Carlos J., Walton, Tashfeen, Wimberley, Catriona, McKenzie, Chris-Anne, Spath, Nick, Mungall, William, BouHaidar, Ralph, Dweck, Marc R., Gray, Gillian A., Newby, David E., Lucatelli, Christophe, Sutherland, Andrew, Pimlott, Sally L., Tavares, Adriana A.S.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Society of Nuclear Medicine 2021
Materias:
Cardiovascular
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8049364/
https://www.ncbi.nlm.nih.gov/pubmed/32859708
http://dx.doi.org/10.2967/jnumed.120.243600
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author MacAskill, Mark G.
Stadulyte, Agne
Williams, Lewis
Morgan, Timaeus E.F.
Sloan, Nikki L.
Alcaide-Corral, Carlos J.
Walton, Tashfeen
Wimberley, Catriona
McKenzie, Chris-Anne
Spath, Nick
Mungall, William
BouHaidar, Ralph
Dweck, Marc R.
Gray, Gillian A.
Newby, David E.
Lucatelli, Christophe
Sutherland, Andrew
Pimlott, Sally L.
Tavares, Adriana A.S.
author_facet MacAskill, Mark G.
Stadulyte, Agne
Williams, Lewis
Morgan, Timaeus E.F.
Sloan, Nikki L.
Alcaide-Corral, Carlos J.
Walton, Tashfeen
Wimberley, Catriona
McKenzie, Chris-Anne
Spath, Nick
Mungall, William
BouHaidar, Ralph
Dweck, Marc R.
Gray, Gillian A.
Newby, David E.
Lucatelli, Christophe
Sutherland, Andrew
Pimlott, Sally L.
Tavares, Adriana A.S.
author_sort MacAskill, Mark G.
collection PubMed
description Myocardial infarction (MI) is one of the leading causes of death worldwide, and inflammation is central to tissue response and patient outcomes. The 18-kDa translocator protein (TSPO) has been used in PET as an inflammatory biomarker. The aims of this study were to screen novel, fluorinated, TSPO radiotracers for susceptibility to the rs6971 genetic polymorphism using in vitro competition binding assays in human brain and heart; assess whether the in vivo characteristics of our lead radiotracer, (18)F-LW223, are suitable for clinical translation; and validate whether (18)F-LW223 can detect macrophage-driven inflammation in a rat MI model. Methods: Fifty-one human brain and 29 human heart tissue samples were screened for the rs6971 polymorphism. Competition binding assays were conducted with (3)H-PK11195 and the following ligands: PK11195, PBR28, and our novel compounds (AB5186 and LW223). Naïve rats and mice were used for in vivo PET kinetic studies, radiometabolite studies, and dosimetry experiments. Rats underwent permanent coronary artery ligation and were scanned using PET/CT with an invasive input function at 7 d after MI. For quantification of PET signal in the hypoperfused myocardium, K(1) (rate constant for transfer from arterial plasma to tissues) was used as a surrogate marker of perfusion to correct the binding potential for impaired radiotracer transfer from plasma to tissue (BP(TC)). Results: LW223 binding to TSPO was not susceptible to the rs6971 genetic polymorphism in human brain and heart samples. In rodents, (18)F-LW223 displayed a specific uptake consistent with TSPO expression, a slow metabolism in blood (69% of parent at 120 min), a high plasma free fraction of 38.5%, and a suitable dosimetry profile (effective dose of 20.5–24.5 μSv/MBq). (18)F-LW223 BP(TC) was significantly higher in the MI cohort within the infarct territory of the anterior wall relative to the anterior wall of naïve animals (32.7 ± 5.0 vs. 10.0 ± 2.4 cm(3)/mL/min, P ≤ 0.001). Ex vivo immunofluorescent staining for TSPO and CD68 (macrophage marker) resulted in the same pattern seen with in vivo BP(TC) analysis. Conclusion: (18)F-LW223 is not susceptible to the rs6971 genetic polymorphism in in vitro assays, has favorable in vivo characteristics, and is able to accurately map macrophage-driven inflammation after MI.
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spelling pubmed-80493642021-04-29 Quantification of Macrophage-Driven Inflammation During Myocardial Infarction with (18)F-LW223, a Novel TSPO Radiotracer with Binding Independent of the rs6971 Human Polymorphism MacAskill, Mark G. Stadulyte, Agne Williams, Lewis Morgan, Timaeus E.F. Sloan, Nikki L. Alcaide-Corral, Carlos J. Walton, Tashfeen Wimberley, Catriona McKenzie, Chris-Anne Spath, Nick Mungall, William BouHaidar, Ralph Dweck, Marc R. Gray, Gillian A. Newby, David E. Lucatelli, Christophe Sutherland, Andrew Pimlott, Sally L. Tavares, Adriana A.S. J Nucl Med Cardiovascular Myocardial infarction (MI) is one of the leading causes of death worldwide, and inflammation is central to tissue response and patient outcomes. The 18-kDa translocator protein (TSPO) has been used in PET as an inflammatory biomarker. The aims of this study were to screen novel, fluorinated, TSPO radiotracers for susceptibility to the rs6971 genetic polymorphism using in vitro competition binding assays in human brain and heart; assess whether the in vivo characteristics of our lead radiotracer, (18)F-LW223, are suitable for clinical translation; and validate whether (18)F-LW223 can detect macrophage-driven inflammation in a rat MI model. Methods: Fifty-one human brain and 29 human heart tissue samples were screened for the rs6971 polymorphism. Competition binding assays were conducted with (3)H-PK11195 and the following ligands: PK11195, PBR28, and our novel compounds (AB5186 and LW223). Naïve rats and mice were used for in vivo PET kinetic studies, radiometabolite studies, and dosimetry experiments. Rats underwent permanent coronary artery ligation and were scanned using PET/CT with an invasive input function at 7 d after MI. For quantification of PET signal in the hypoperfused myocardium, K(1) (rate constant for transfer from arterial plasma to tissues) was used as a surrogate marker of perfusion to correct the binding potential for impaired radiotracer transfer from plasma to tissue (BP(TC)). Results: LW223 binding to TSPO was not susceptible to the rs6971 genetic polymorphism in human brain and heart samples. In rodents, (18)F-LW223 displayed a specific uptake consistent with TSPO expression, a slow metabolism in blood (69% of parent at 120 min), a high plasma free fraction of 38.5%, and a suitable dosimetry profile (effective dose of 20.5–24.5 μSv/MBq). (18)F-LW223 BP(TC) was significantly higher in the MI cohort within the infarct territory of the anterior wall relative to the anterior wall of naïve animals (32.7 ± 5.0 vs. 10.0 ± 2.4 cm(3)/mL/min, P ≤ 0.001). Ex vivo immunofluorescent staining for TSPO and CD68 (macrophage marker) resulted in the same pattern seen with in vivo BP(TC) analysis. Conclusion: (18)F-LW223 is not susceptible to the rs6971 genetic polymorphism in in vitro assays, has favorable in vivo characteristics, and is able to accurately map macrophage-driven inflammation after MI. Society of Nuclear Medicine 2021-04 /pmc/articles/PMC8049364/ /pubmed/32859708 http://dx.doi.org/10.2967/jnumed.120.243600 Text en © 2021 by the Society of Nuclear Medicine and Molecular Imaging. https://creativecommons.org/licenses/by/4.0/Immediate Open Access: Creative Commons Attribution 4.0 International License (CC BY) allows users to share and adapt with attribution, excluding materials credited to previous publications. License: https://creativecommons.org/licenses/by/4.0/. Details: http://jnm.snmjournals.org/site/misc/permission.xhtml.
spellingShingle Cardiovascular
MacAskill, Mark G.
Stadulyte, Agne
Williams, Lewis
Morgan, Timaeus E.F.
Sloan, Nikki L.
Alcaide-Corral, Carlos J.
Walton, Tashfeen
Wimberley, Catriona
McKenzie, Chris-Anne
Spath, Nick
Mungall, William
BouHaidar, Ralph
Dweck, Marc R.
Gray, Gillian A.
Newby, David E.
Lucatelli, Christophe
Sutherland, Andrew
Pimlott, Sally L.
Tavares, Adriana A.S.
Quantification of Macrophage-Driven Inflammation During Myocardial Infarction with (18)F-LW223, a Novel TSPO Radiotracer with Binding Independent of the rs6971 Human Polymorphism
title Quantification of Macrophage-Driven Inflammation During Myocardial Infarction with (18)F-LW223, a Novel TSPO Radiotracer with Binding Independent of the rs6971 Human Polymorphism
title_full Quantification of Macrophage-Driven Inflammation During Myocardial Infarction with (18)F-LW223, a Novel TSPO Radiotracer with Binding Independent of the rs6971 Human Polymorphism
title_fullStr Quantification of Macrophage-Driven Inflammation During Myocardial Infarction with (18)F-LW223, a Novel TSPO Radiotracer with Binding Independent of the rs6971 Human Polymorphism
title_full_unstemmed Quantification of Macrophage-Driven Inflammation During Myocardial Infarction with (18)F-LW223, a Novel TSPO Radiotracer with Binding Independent of the rs6971 Human Polymorphism
title_short Quantification of Macrophage-Driven Inflammation During Myocardial Infarction with (18)F-LW223, a Novel TSPO Radiotracer with Binding Independent of the rs6971 Human Polymorphism
title_sort quantification of macrophage-driven inflammation during myocardial infarction with (18)f-lw223, a novel tspo radiotracer with binding independent of the rs6971 human polymorphism
topic Cardiovascular
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8049364/
https://www.ncbi.nlm.nih.gov/pubmed/32859708
http://dx.doi.org/10.2967/jnumed.120.243600
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