Coordination Complex Formation and Redox Properties of Kynurenic and Xanthurenic Acid Can Affect Brain Tissue Homeodynamics
Reactive oxygen species (ROS) are known for their participation in various physiological and pathological processes in organisms, including ageing or degeneration. Kynurenine pathway metabolites, such as kynurenic (KYNA) or xanthurenic (XA) acid, can affect neurodegenerative diseases due to their RO...
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| Main Authors: | , , , , |
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| Format: | Book |
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MDPI AG,
2019-10-01T00:00:00Z.
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| Summary: | Reactive oxygen species (ROS) are known for their participation in various physiological and pathological processes in organisms, including ageing or degeneration. Kynurenine pathway metabolites, such as kynurenic (KYNA) or xanthurenic (XA) acid, can affect neurodegenerative diseases due to their ROS scavenging and Fe ion coordination complex formation but insights are still incomplete. Therefore, we investigated the formation and antioxidant capabilities of KYNA− and XA−Fe complexes by nano-electrospray−mass spectrometry, differential pulse voltammetry, deoxyribose degradation and Fe<sup>II</sup> autoxidation assays. XA formed coordination complexes with Fe<sup>II</sup> or Fe<sup>III</sup> ions and was an effective antioxidant. By contrast, only Fe<sup>II</sup>−KYNA complexes could be detected. Moreover, KYNA showed no antioxidant effects in the FeCl<sub>3</sub>/ascorbic acid deoxyribose degradation assay variant and only negligible activities in the Fe<sup>II</sup> autoxidation assay. Coordination complexes of Fe ions with KYNA probably stabilize KYNA in its keto tautomer form. Nevertheless, both KYNA and XA exhibited sufficient antioxidant activities in some of the employed assay variants. The results provide evidence that both have the potential to alleviate neurodegenerative diseases by helping to maintain tissue redox homeodynamics. |
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| Item Description: | 2076-3921 10.3390/antiox8100476 |