Novel Procedures for Preparing 99mTc(III) Complexes with Tetradentate/Monodentate Coordination of Varying Lipophilicity and Adaptation to 188Re Analogues

Improved methods are presented for the preparation of 99mTc and 188Re mixed-ligand complexes with tetradentate and monodentate ligands of the general formula [MIII(Lm)(Ln)] (M = Tc, Re; Lm = NS3 or NS3COOH; Ln = isocyanide or phosphine). To avoid the undesired formation of reduced-hydrolyzed species...

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Published in:Bioconjugate chemistry 2004-07, Vol.15 (4), p.856-863
Main Authors: Seifert, S, Künstler, J.-U, Schiller, E, Pietzsch, H.-J, Pawelke, B, Bergmann, R, Spies, H
Format: Article
Language:English
Subjects:
Animals
Chemistry
Hydrogen-Ion Concentration
Hydrophobic and Hydrophilic Interactions
Ligands
Lipids - chemistry
Male
Metals
Methods
Molecular Structure
Radioisotopes
Rats
Rats, Wistar
Rhenium - chemistry
Technetium Compounds - administration & dosage
Technetium Compounds - chemical synthesis
Technetium Compounds - chemistry
Technetium Compounds - pharmacokinetics
Tissue Distribution
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container_title Bioconjugate chemistry
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Künstler, J.-U
Schiller, E
Pietzsch, H.-J
Pawelke, B
Bergmann, R
Spies, H
description Improved methods are presented for the preparation of 99mTc and 188Re mixed-ligand complexes with tetradentate and monodentate ligands of the general formula [MIII(Lm)(Ln)] (M = Tc, Re; Lm = NS3 or NS3COOH; Ln = isocyanide or phosphine). To avoid the undesired formation of reduced-hydrolyzed species of both metals, the preparation of complexes is performed in a two-step procedure. At first the Tc(III)− or Re(III)−EDTA complex is formed which reacts in a second step with the tripodal ligand 2,2‘,2‘ ‘-nitrilotris(ethanethiol) (NS3) or its carboxyl derivative NS3COOH (a) and the monodentate phosphine ligands (triphenylphosphine L 1 , dimethylphenylphosphine L 2 ) or isocyanides (tert-butyl isonitrile L 3 , methoxyisobutyl isonitrile L 4 , 4-isocyanomethylbenzoic acid-l-arginine L 5 , 4-isocyanomethylbenzoic acid-l-arginyl-l-arginine L 6 , 4-isocyanomethylbenzoic acid-neurotensin(8−13) L 7 ) to the so-called ‘4+1' complex. Copper(I) isocyanide complexes are used for preparing the ‘4+1' complexes. That facilitates storage stability and allows kit formulations, and, moreover, enables the formation of 188Re complexes in acidic solution. Only micromolar amounts of the monodentate ligand are needed, and that results in high specific activity labeling of interesting molecules. The lipophilicity of complexes can be controlled by introducing a carboxyl group into the tetradentate ligand and/or derivatization of the monodentate ligands. Furthermore, the carboxyl group enables the conjugation of biomolecules. As an example, the neurotensin derivative CN-NT(8−13) was prepared and labeled with 99mTc according to the ‘4+1' approach, and its behavior in vivo was studied.
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To avoid the undesired formation of reduced-hydrolyzed species of both metals, the preparation of complexes is performed in a two-step procedure. At first the Tc(III)− or Re(III)−EDTA complex is formed which reacts in a second step with the tripodal ligand 2,2‘,2‘ ‘-nitrilotris(ethanethiol) (NS3) or its carboxyl derivative NS3COOH (a) and the monodentate phosphine ligands (triphenylphosphine L 1 , dimethylphenylphosphine L 2 ) or isocyanides (tert-butyl isonitrile L 3 , methoxyisobutyl isonitrile L 4 , 4-isocyanomethylbenzoic acid-l-arginine L 5 , 4-isocyanomethylbenzoic acid-l-arginyl-l-arginine L 6 , 4-isocyanomethylbenzoic acid-neurotensin(8−13) L 7 ) to the so-called ‘4+1' complex. Copper(I) isocyanide complexes are used for preparing the ‘4+1' complexes. That facilitates storage stability and allows kit formulations, and, moreover, enables the formation of 188Re complexes in acidic solution. 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Lm = NS3 or NS3COOH; Ln = isocyanide or phosphine). To avoid the undesired formation of reduced-hydrolyzed species of both metals, the preparation of complexes is performed in a two-step procedure. At first the Tc(III)− or Re(III)−EDTA complex is formed which reacts in a second step with the tripodal ligand 2,2‘,2‘ ‘-nitrilotris(ethanethiol) (NS3) or its carboxyl derivative NS3COOH (a) and the monodentate phosphine ligands (triphenylphosphine L 1 , dimethylphenylphosphine L 2 ) or isocyanides (tert-butyl isonitrile L 3 , methoxyisobutyl isonitrile L 4 , 4-isocyanomethylbenzoic acid-l-arginine L 5 , 4-isocyanomethylbenzoic acid-l-arginyl-l-arginine L 6 , 4-isocyanomethylbenzoic acid-neurotensin(8−13) L 7 ) to the so-called ‘4+1' complex. Copper(I) isocyanide complexes are used for preparing the ‘4+1' complexes. That facilitates storage stability and allows kit formulations, and, moreover, enables the formation of 188Re complexes in acidic solution. Only micromolar amounts of the monodentate ligand are needed, and that results in high specific activity labeling of interesting molecules. The lipophilicity of complexes can be controlled by introducing a carboxyl group into the tetradentate ligand and/or derivatization of the monodentate ligands. Furthermore, the carboxyl group enables the conjugation of biomolecules. As an example, the neurotensin derivative CN-NT(8−13) was prepared and labeled with 99mTc according to the ‘4+1' approach, and its behavior in vivo was studied.</abstract><cop>United States</cop><pub>American Chemical Society</pub><pmid>15264874</pmid><doi>10.1021/bc0300798</doi><tpages>8</tpages></addata></record>
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source American Chemical Society:Jisc Collections:American Chemical Society Read & Publish Agreement 2022-2024 (Reading list)
subjects Animals
Chemistry
Hydrogen-Ion Concentration
Hydrophobic and Hydrophilic Interactions
Ligands
Lipids - chemistry
Male
Metals
Methods
Molecular Structure
Radioisotopes
Rats
Rats, Wistar
Rhenium - chemistry
Technetium Compounds - administration & dosage
Technetium Compounds - chemical synthesis
Technetium Compounds - chemistry
Technetium Compounds - pharmacokinetics
Tissue Distribution
title Novel Procedures for Preparing 99mTc(III) Complexes with Tetradentate/Monodentate Coordination of Varying Lipophilicity and Adaptation to 188Re Analogues
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