Synthesis of DOTA-pyridine chelates for 64Cu coordination and radiolabeling of αMSH peptide

Synthesis of DOTA-pyridine chelates for 64Cu coordination and radiolabeling of αMSH peptide

Abstract Background 64Cu is one of the few radioisotopes that can be used for both imaging and therapy, enabling theranostics with identical chemical composition. Development of stable chelators is essential to harness the potential of this isotope, challenged by the presence of endogenous copper ch...

Full description

Bibliographic Details
Main Authors: Hua Yang, Feng Gao, Brooke McNeil, Chengcheng Zhang, Zheliang Yuan, Stefan Zeisler, Joel Kumlin, Jutta Zeisler, François Bénard, Caterina Ramogida, Paul Schaffer
Format: Article
Language:English
Published: SpringerOpen 2021-01-01
Series:EJNMMI Radiopharmacy and Chemistry
Subjects:
Copper-64
Chelating ligands
Radiolabeling
α-Melanocyte-stimulating hormone
Pyridyl
DOTA
Online Access:https://doi.org/10.1186/s41181-020-00119-4
id doaj-02d74d0079c0477dac9ddd9c7a511878
record_format Article
spelling doaj-02d74d0079c0477dac9ddd9c7a5118782021-01-17T12:03:54ZengSpringerOpenEJNMMI Radiopharmacy and Chemistry2365-421X2021-01-016111610.1186/s41181-020-00119-4Synthesis of DOTA-pyridine chelates for 64Cu coordination and radiolabeling of αMSH peptideHua Yang0Feng Gao1Brooke McNeil2Chengcheng Zhang3Zheliang Yuan4Stefan Zeisler5Joel Kumlin6Jutta Zeisler7François Bénard8Caterina Ramogida9Paul Schaffer10Life Sciences Division, TRIUMFLife Sciences Division, TRIUMFLife Sciences Division, TRIUMFDepartment of Molecular Oncology, BC Cancer Research CentreLife Sciences Division, TRIUMFLife Sciences Division, TRIUMFLife Sciences Division, TRIUMFDepartment of Molecular Oncology, BC Cancer Research CentreDepartment of Molecular Oncology, BC Cancer Research CentreLife Sciences Division, TRIUMFLife Sciences Division, TRIUMFAbstract Background 64Cu is one of the few radioisotopes that can be used for both imaging and therapy, enabling theranostics with identical chemical composition. Development of stable chelators is essential to harness the potential of this isotope, challenged by the presence of endogenous copper chelators. Pyridyl type chelators show good coordination ability with copper, prompting the present study of a series of chelates DOTA-xPy (x = 1–4) that sequentially substitute carboxyl moieties with pyridyl moieties on a DOTA backbone. Results We found that the presence of pyridyl groups significantly increases 64Cu labeling conversion yield, with DOTA-2Py, −3Py and -4Py quantitatively complexing 64Cu at room temperature within 5 min (1 × 10− 4 M). [64Cu]Cu-DOTA-xPy (x = 2–4) exhibited good stability in human serum up to 24 h. When challenged with 1000 eq. of NOTA, no transmetallation was observed for all three 64Cu complexes. DOTA-xPy (x = 1–3) were conjugated to a cyclized α-melanocyte-stimulating hormone (αMSH) peptide by using one of the pendant carboxyl groups as a bifunctional handle. [64Cu]Cu-DOTA-xPy-αMSH retained good serum stability (> 96% in 24 h) and showed high binding affinity (Ki = 2.1–3.7 nM) towards the melanocortin 1 receptor. Conclusion DOTA-xPy (x = 1–3) are promising chelators for 64Cu. Further in vivo evaluation is necessary to assess the full potential of these chelators as a tool to enable further theranostic radiopharmaceutical development.https://doi.org/10.1186/s41181-020-00119-4Copper-64Chelating ligandsRadiolabelingα-Melanocyte-stimulating hormonePyridylDOTA
collection DOAJ
language English
format Article
sources DOAJ
author Hua Yang
Feng Gao
Brooke McNeil
Chengcheng Zhang
Zheliang Yuan
Stefan Zeisler
Joel Kumlin
Jutta Zeisler
François Bénard
Caterina Ramogida
Paul Schaffer
spellingShingle Hua Yang
Feng Gao
Brooke McNeil
Chengcheng Zhang
Zheliang Yuan
Stefan Zeisler
Joel Kumlin
Jutta Zeisler
François Bénard
Caterina Ramogida
Paul Schaffer
Synthesis of DOTA-pyridine chelates for 64Cu coordination and radiolabeling of αMSH peptide
EJNMMI Radiopharmacy and Chemistry
Copper-64
Chelating ligands
Radiolabeling
α-Melanocyte-stimulating hormone
Pyridyl
DOTA
author_facet Hua Yang
Feng Gao
Brooke McNeil
Chengcheng Zhang
Zheliang Yuan
Stefan Zeisler
Joel Kumlin
Jutta Zeisler
François Bénard
Caterina Ramogida
Paul Schaffer
author_sort Hua Yang
title Synthesis of DOTA-pyridine chelates for 64Cu coordination and radiolabeling of αMSH peptide
title_short Synthesis of DOTA-pyridine chelates for 64Cu coordination and radiolabeling of αMSH peptide
title_full Synthesis of DOTA-pyridine chelates for 64Cu coordination and radiolabeling of αMSH peptide
title_fullStr Synthesis of DOTA-pyridine chelates for 64Cu coordination and radiolabeling of αMSH peptide
title_full_unstemmed Synthesis of DOTA-pyridine chelates for 64Cu coordination and radiolabeling of αMSH peptide
title_sort synthesis of dota-pyridine chelates for 64cu coordination and radiolabeling of αmsh peptide
publisher SpringerOpen
series EJNMMI Radiopharmacy and Chemistry
issn 2365-421X
publishDate 2021-01-01
description Abstract Background 64Cu is one of the few radioisotopes that can be used for both imaging and therapy, enabling theranostics with identical chemical composition. Development of stable chelators is essential to harness the potential of this isotope, challenged by the presence of endogenous copper chelators. Pyridyl type chelators show good coordination ability with copper, prompting the present study of a series of chelates DOTA-xPy (x = 1–4) that sequentially substitute carboxyl moieties with pyridyl moieties on a DOTA backbone. Results We found that the presence of pyridyl groups significantly increases 64Cu labeling conversion yield, with DOTA-2Py, −3Py and -4Py quantitatively complexing 64Cu at room temperature within 5 min (1 × 10− 4 M). [64Cu]Cu-DOTA-xPy (x = 2–4) exhibited good stability in human serum up to 24 h. When challenged with 1000 eq. of NOTA, no transmetallation was observed for all three 64Cu complexes. DOTA-xPy (x = 1–3) were conjugated to a cyclized α-melanocyte-stimulating hormone (αMSH) peptide by using one of the pendant carboxyl groups as a bifunctional handle. [64Cu]Cu-DOTA-xPy-αMSH retained good serum stability (> 96% in 24 h) and showed high binding affinity (Ki = 2.1–3.7 nM) towards the melanocortin 1 receptor. Conclusion DOTA-xPy (x = 1–3) are promising chelators for 64Cu. Further in vivo evaluation is necessary to assess the full potential of these chelators as a tool to enable further theranostic radiopharmaceutical development.
topic Copper-64
Chelating ligands
Radiolabeling
α-Melanocyte-stimulating hormone
Pyridyl
DOTA
url https://doi.org/10.1186/s41181-020-00119-4
work_keys_str_mv AT huayang synthesisofdotapyridinechelatesfor64cucoordinationandradiolabelingofamshpeptide
AT fenggao synthesisofdotapyridinechelatesfor64cucoordinationandradiolabelingofamshpeptide
AT brookemcneil synthesisofdotapyridinechelatesfor64cucoordinationandradiolabelingofamshpeptide
AT chengchengzhang synthesisofdotapyridinechelatesfor64cucoordinationandradiolabelingofamshpeptide
AT zheliangyuan synthesisofdotapyridinechelatesfor64cucoordinationandradiolabelingofamshpeptide
AT stefanzeisler synthesisofdotapyridinechelatesfor64cucoordinationandradiolabelingofamshpeptide
AT joelkumlin synthesisofdotapyridinechelatesfor64cucoordinationandradiolabelingofamshpeptide
AT juttazeisler synthesisofdotapyridinechelatesfor64cucoordinationandradiolabelingofamshpeptide
AT francoisbenard synthesisofdotapyridinechelatesfor64cucoordinationandradiolabelingofamshpeptide
AT caterinaramogida synthesisofdotapyridinechelatesfor64cucoordinationandradiolabelingofamshpeptide
AT paulschaffer synthesisofdotapyridinechelatesfor64cucoordinationandradiolabelingofamshpeptide
_version_ 1724335441071570944

Similar Items