Copper(II) Complexes of Pyridine-2,6-dicarboxamide Ligands with High SOD Activity

Copper­(II) complexes of pyridine-based ligands functionalized with alanine (PydiAla) and tyrosine (PydiTyr) moieties have been synthesized as novel superoxide dismutase mimics. The complexes were characterized by pH-potentiometric, spectroscopic (UV–vis, circular dichroism, mass spectrometry, elect...

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Bibliographic Details
Published in:Inorganic chemistry 2022-01, Vol.61 (4), p.2319-2332
Main Authors: Diószegi, Róbert, Bonczidai-Kelemen, Dóra, Bényei, Attila Cs, May, Nóra V, Fábián, István, Lihi, Norbert
Format: Article
Language:English
Subjects:
Coordination Complexes - chemical synthesis
Coordination Complexes - chemistry
Copper - chemistry
Density Functional Theory
Ligands
Models, Molecular
Molecular Structure
Pyridines - chemistry
Superoxide Dismutase - chemistry
Superoxide Dismutase - metabolism
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Summary:Copper­(II) complexes of pyridine-based ligands functionalized with alanine (PydiAla) and tyrosine (PydiTyr) moieties have been synthesized as novel superoxide dismutase mimics. The complexes were characterized by pH-potentiometric, spectroscopic (UV–vis, circular dichroism, mass spectrometry, electron paramagnetic resonance spectroscopy), computational (DFT), and X-ray diffraction methods. Both ligands form high stability copper­(II) complexes via the (Npy,N–,N–) donor set supported by the binding of the carboxylate pendant arms. Although the coordination mode is the same for the two systems, the tyrosine containing counterpart exhibits increased copper­(II) binding affinity, which is most likely due to the presence of the aromatic moiety of the side chains. Both copper­(II) complexes are capable of binding N-methylimidazole, and the formation of the corresponding ternary species was observed at physiological pH. The binary and ternary copper­(II) complexes exhibit high SOD activity. The PydiTyr complex exhibits about 1 order of magnitude higher activity than the PydiAla complex. This is probably due to the presence of the phenolic OH group in the former species, which promotes the binding of the superoxide anion radical to the metal center. The results serve as a basis for designing highly efficient copper­(II) mimics for medical and practical applications.
ISSN:0020-1669
1520-510X
1520-510X
DOI:10.1021/acs.inorgchem.1c03728