Novel hexadentate and pentadentate chelators for super(64)Cu-based targeted PET imaging

A series of new hexadentate and pentadentate chelators were designed and synthesized as chelators of super(64)Cu. The new pentadentate and hexadentate chelators contain different types of donor groups and are expected to form neutral complexes with Cu(II). The new chelators were evaluated for comple...

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Veröffentlicht in:	Bioorganic & medicinal chemistry 2014-04, Vol.22 (8), p.2553-2562
Hauptverfasser:	Sin, Inseok, Kang, Chi Soo, Bandara, Nilantha, Sun, Xiang, Zhong, Yongliang, Rogers, Buck E, Chong, Hyun-Soon
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container_title	Bioorganic & medicinal chemistry
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creator	Sin, Inseok Kang, Chi Soo Bandara, Nilantha Sun, Xiang Zhong, Yongliang Rogers, Buck E Chong, Hyun-Soon
description	A series of new hexadentate and pentadentate chelators were designed and synthesized as chelators of super(64)Cu. The new pentadentate and hexadentate chelators contain different types of donor groups and are expected to form neutral complexes with Cu(II). The new chelators were evaluated for complex kinetics and stability with super(64)Cu. The new chelators instantly bound to super(64)Cu with high labeling efficiency and maximum specific activity. All super(64)Cu-radiolabeled complexes in human serum remained intact for 2 days. The super(64)Cu-radiolabeled complexes were further challenged by EDTA in a 100-fold molar excess. Among the super(64)Cu-radiolabeled complexes evaluated, super(64)Cu-complex of the new chelator E was well tolerated with a minimal transfer of super(64)Cu to EDTA. super(64)Cu-radiolabeled complex of the new chelator E was further evaluated for biodistribution studies using mice and displayed rapid blood clearance and low organ uptake. super(64)Cu-chelator E produced a favorable in vitro and in vivo complex stability profiles comparable to super(64)Cu complex of the known hexadentate NOTA chelator. The in vitro and in vivo data highlight strong potential of the new chelator E for targeted PET imaging application.
doi_str_mv	10.1016/j.bmc.2014.02.041
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The new pentadentate and hexadentate chelators contain different types of donor groups and are expected to form neutral complexes with Cu(II). The new chelators were evaluated for complex kinetics and stability with super(64)Cu. The new chelators instantly bound to super(64)Cu with high labeling efficiency and maximum specific activity. All super(64)Cu-radiolabeled complexes in human serum remained intact for 2 days. The super(64)Cu-radiolabeled complexes were further challenged by EDTA in a 100-fold molar excess. Among the super(64)Cu-radiolabeled complexes evaluated, super(64)Cu-complex of the new chelator E was well tolerated with a minimal transfer of super(64)Cu to EDTA. super(64)Cu-radiolabeled complex of the new chelator E was further evaluated for biodistribution studies using mice and displayed rapid blood clearance and low organ uptake. super(64)Cu-chelator E produced a favorable in vitro and in vivo complex stability profiles comparable to super(64)Cu complex of the known hexadentate NOTA chelator. 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title	Novel hexadentate and pentadentate chelators for super(64)Cu-based targeted PET imaging
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