Abstract
To evaluate the antioxidant activity of potential synthetic enzyme mimetics, we prepared new five copper(II) complexes via a self-assembly method and named them [Cu(2-(HOCH2)py)3](ClO4)2 (1), [Cu(2-(HOCH2)py)2(H2O)2]SiF6 (2), [Cu2(2-(HOCH2CH2)py)2(2-(OCH2CH2)py)2](ClO4)2 (3), [Cu(pyBIm)3](BF4)2·1.5H2O (4) and [Cu(py2C(OH)2)2](ClO4)2 (5). The synthetic protocol involved N,O- or N,N-donors: 2-(hydroxymethyl)pyridine (2-(HOCH2)py), 2-(hydroxyethyl)pyridine (2-(HOCH2CH2)py), 2-(2-pyridyl)benzimidazole (pyBIm), di(2-pyridyl)ketone (py2CO). The obtained Cu(II) complexes were fully characterised by elemental analysis, FTIR, EPR, UV-Vis, single-crystal X-ray diffraction and Hirshfeld surface analysis. Crystallographic and spectroscopic analyses confirmed chromophores of both monomeric ({CuN3O3} (1), {CuN2O4} (2), {CuN6} (4), {CuN4O2} (5)) and dimeric complex ({CuN2O3} (3)). Most of the obtained species possessed a distorted octahedral environment, except dimer 3, which consisted of two copper centres with square pyramidal geometries. The water-soluble compounds (1, 3 and 5) were selected for biological testing. The results of the study revealed that complex 1 in solutions displayed better radical scavenging activity than complexes 3, 5 and free ligands. Therefore, complex 1 has been selected for further studies to test its activity as an enzyme mimetic. The chosen compound was tested on the erythrocyte lysate of two groups of patients after undergoing chemotherapy and chemoradiotherapy. The effect of the tested compound (1) on enzyme activity levels (TAS, SOD and CAT) suggests that the selected complex can be treated as a functional mimetic of the enzymes.
Highlights
IntroductionDue to the contemporary state of environmental pollution in which humans live, research into the metabolic role of oxygen has increased in recent years
It is important to note that synthetic antioxidants can support chemo- and radiotherapy for a correct antioxidant balance in organisms
Spectroscopic analyses and X-ray data confirmed that Cu(II) ions in the monomeric complexes possessed distorted octahedral environments with different chromophores: {CuN3 O3 } (1)
Summary
Due to the contemporary state of environmental pollution in which humans live, research into the metabolic role of oxygen has increased in recent years. The metabolic consequences of this damage affect the body, playing a significant role in the pathogenesis of many diseases, such as neurodegenerative diseases [6,7,8] and cancer [9], and can lead to inborn metabolic abnormalities of red blood cells and the development of anaemia [10]. It is important to note that increased levels of reactive oxygen species, which lead to serious organ damage, are a consequence of therapies, including chemo- and radiotherapy [11]
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