Oxidative damage to ßL-crystallin in vitro by iron compounds formed in physiological buffers.
Biophys Chem
; 294: 106963, 2023 03.
Article
em En
| MEDLINE
| ID: mdl-36716683
ABSTRACT
ßL-crystallin aggregation due to oxidative damage in the presence of H2O2 and ferric chloride was studied in-vitro under conditions close to physiological. It was shown that the protein aggregation characterized by the nucleation time and the aggregation rate significantly depended on the composition of the isoosmotic buffers used, and decreased in the series HEPES buffer > Tris buffer > PBS. Ferric chloride at neutral pH was converted into water-insoluble iron hydroxide III (≡FeIIIOH). According to the data of scanning electron microscopy the ≡FeIIIOH particles formed in HEPES buffer, Tris buffer, and PBS practically did not differ in structure. However, the sizes of ≡FeIIIOH floating particles measured by dynamic light scattering differed significantly and were 44 ± 28 nm, 93 ± 66 nm, 433 ± 316 nm (Zaver ± SD) for HEPES buffer, Tris buffer, and PBS, respectively. It was found by the spin trap method that the ability of ≡FeIIIOH to decompose H2O2 with the formation of a â¢OH decreases in the series HEPES buffer, Tris buffer, and PBS. The authors suggest that the ability to generate â¢OH during the decomposition of H2O2 is determined by the total surface area of ≡FeIIIOH particles, which significantly depends on the composition of the buffer in which these particles are formed.
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MEDLINE
Assunto principal:
Compostos de Ferro
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Cristalinas
Idioma:
En
Ano de publicação:
2023
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Article