1. Academic Validation
  2. Generation of reactive oxygen species by hydroxypyridone compound/iron complexes

Generation of reactive oxygen species by hydroxypyridone compound/iron complexes

  • Redox Rep. 2020 Dec;25(1):59-63. doi: 10.1080/13510002.2020.1787662.
Keiko Murakami 1 Masataka Yoshino 1
Affiliations

Affiliation

  • 1 Department of Biochemistry, Aichi Medical University School of Medicine, Nagakute, Japan.
Abstract

Objectives: Prooxidant properties of iron-binding hydroxypyridone compounds including deferiprone and mimosine were analyzed. Methods: Hydroxypyridone/iron-dependent production of Reactive Oxygen Species was evidenced by the inactivation of aconitase, the most sensitive Enzyme to oxidative stress in permeabilized yeast cells. Results and Discussion: Deferiprone and mimosine produced Reactive Oxygen Species in the presence of ferrous sulfate. The inactivation required sodium azide the inhibitor of catalase, and addition of TEMPOL, a scavenger of superoxide radical, protected aconitase from the inactivation, suggesting that the superoxide radical produced from the hydroxypyridone/iron complex is responsible for the inactivation of aconitase. A principal role of superoxide radical was further supported by the finding that the hydroxypyridone/iron complex can inactivate aconitase in the presence of cyanide the inhibitor of superoxide dismutase. Deferiprone and mimosine stimulated the Fe2+ oxidation, resulting in the one-electron reduction of oxygen to form superoxide anion, which can inactivate aconitase by oxidizing the prosthetic iron-sulfur cluster. Mimosine further stimulated the ascorbate/iron-dependent formation of 8-hydroxy-2'-deoxyguanosine in DNA. Conclusion: Biological toxicity of mimosine and deferiprone reported previously can be accounted for by the prooxidant properties of hydroxypyridone compounds: coordination complex with iron generates Reactive Oxygen Species resulting in the disturbance of mitochondrial energy metabolism and DNA damage.

Keywords

DNA damage; Hydroxypyridone; deferiprone; hydrogen peroxide‌; iron; mimosine‌; reactive oxygen species; superoxide.

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