- Investigation of isomer formation upon coordination of bifunctional histidine analogues with 99mTc/Re(CO)3
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Histidine is a convenient tridentate chelator used in the synthesis of technetium-99m radiopharmaceuticals, as it can be pendantly attached to a biomolecule for molecular imaging applications. Once coordinated, it forms a neutral complex that is capable of forming diastereomers at the alpha amine of the histidine. This is demonstrated through the synthesis and characterization of four different histidine chelators; three small molecule chelators, which consist of a benzylated histidine at the alpha amine, and one modified dipeptide, containing a phenylalanine derivative at the C-terminus and a histidine at the N-terminus. Upon rhenium coordination, two products are observed, each having the desired exact mass of the metal-containing species. The two products have been characterized through LC-MS, 1H, gCOSY, NOESY and ROESY NMR experiments, and the relative stereochemistry determined. The implications of diastereomer formation when using this chelation system for creating molecular imaging agents is also discussed.
- Simpson, Emily J.,Hickey, Jennifer L.,Breadner, Daniel,Luyt, Leonard G.
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experimental part
p. 2950 - 2958
(2012/04/10)
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- Synthesis and evaluation of deglycobleomycin A2 analogues containing a tertiary N-methyl amide and simple ester replacement for the L-histidine secondary amide: Direct functional characterization of the requirement for secondary amide metal complexation
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The synthesis and comparative examination of 3-5, analogues of deglycobleomycin A2 (2) which address the inferred importance of the L-histidine secondary amide directly, are detailed. The agent 3 lacks only the L-histidine β-hydroxy group of deglycobleomycin A2 and the corresponding agents 4 and 5 incorporate a tertiary N-methyl amide and simple ester in place of the L-histidine secondary amide. The DNA cleavage properties of 3 proved essentially indistinguishable from those of deglycobleomycin A2 (2) confirming that the distinctions between bleomycin A2 (1) and deglycobleomycin (2) are due to the removal of the disaccharide and not the introduction of the L-histidine free β-hydroxy group. The agents 4 and 5 containing a tertiary N-methyl amide and ester in place of the L-histidine secondary amide were found to cleave duplex DNA but to do so in a nonsequence selective fashion with a substantially reduced efficiency and a diminished double to single strand cleavage ratio that are only slightly greater than that of free iron itself. These latter observations establish the functional requirement for the L-histidine secondary amide and are consistent with the proposals that the L-histidine deprotonated secondary amide is required for functional metal chelation and activity.
- Boger, Dale L.,Teramoto, Shuji,Cai, Hui
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p. 179 - 193
(2007/10/03)
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