Your search keyword '"Radko S"' showing total 3 results

1. Effects of the H6R and D7H Mutations on the Heparin-Dependent Modulation of Zinc-Induced Aggregation of Amyloid β.

Author

Radko, S. P., Khmeleva, S. A., Kiseleva, Y. Y., Kozin, S. A., Mitkevich, V. A., and Makarov, A. A.

Subjects

*AMYLOID beta-protein, *HEPARIN, *AMYLOID, *ZINC ions, *COMPLEX ions, *ALZHEIMER'S disease, *PATHOLOGY

Abstract

Zinc ions and glycosaminoglycans (GAGs) are found in amyloid deposits and are known to modulate the β-amyloid peptide (Аβ) aggregation, which is thought to be a key event in the pathogenesis of Alzheimer's disease (AD). Correlation spectroscopy was used to study how the H6R and D7H mutations of the metal-binding domain (MBD) of Аβ42 affect the modulation of its zinc-induced aggregation by the model GAG heparin. The H6R mutation was shown to decrease and the D7H mutation to increase the Аβ42 propensity to aggregate in the presence of zinc ions. In addition, H6R diminished and D7H enhanced the modulating effect of heparin. The difference in the heparin-dependent modulation was associated with coordination of zinc ions within the MBDs of the mutant peptides. The findings indicate that anion-binding sites formed by complexes of zinc ions with the Аβ MBD play an essential role in the interaction of zinc-induced Аβ aggregates with heparin. [ABSTRACT FROM AUTHOR]

Published

2019

2. Effect of mutations and modifications of amino acid residues on zinc-induced interaction of the metal-binding domain of β-amyloid with DNA.

Author

Khmeleva, S., Mezentsev, Y., Kozin, S., Mitkevich, V., Medvedev, A., Ivanov, A., Bodoev, N., Makarov, A., and Radko, S.

Subjects

AMYLOID, ALZHEIMER'S disease, PLASMONICS, ZINC ions, BINDING sites

Abstract

Interaction of intranuclear β-amyloid with DNA is considered to be a plausible mechanism of Alzheimer's disease pathogenesis. The interaction of single- and double-stranded DNA with synthetic peptides was analyzed using surface plasmon resonance. The peptides represent the metal-binding domain of β-amyloid (amino acids 1-16) and its variants with chemical modifications and point substitutions of amino acid residues which are associated with enhanced neurotoxicity of β-amyloid in cell tests. It has been shown that the presence of zinc ions is necessary for the interaction of the peptides with DNA in solution. H6R substitution has remarkably reduced the ability of domain 1-16 to bind DNA. This is in accordance with the supposition that the coordination of a zinc ion by amino acid residues His6, Glu11, His13, and His14 of the β-amyloid metal-binding domain results in the occurrence of an anion-binding site responsible for the interaction of the domain with DNA. Zinc-induced dimerization and oligomerization of domain 1-16 associated with phosphorylation of Ser8 and the presence of unblocked amino- and carboxy-terminal groups have resulted in a decrease of peptide concentrations required for detection of the peptide-DNA interaction. The presence of multiple anion-binding sites on the dimers and oligomers is responsible for the enhancement of the peptide-DNA interaction. A substitution of the negatively charged residue Asp7 for the neutral residue Asn in close proximity to the anion-binding site of the domain 1-16 of Aβ facilitates the electrostatic interaction between this site and phosphates of a polynucleotide chain, which enhances zinc-induced binding to DNA. [ABSTRACT FROM AUTHOR]

Published

2015

3. Zinc-induced interactions of the metal-binding domain of beta-amyloid with nucleic acids and glycosaminoglycans.

Author

Khmeleva, S., Kozin, S., Kiseleva, Y., Mitkevich, V., Makarov, A., and Radko, S.

Subjects

TRANSITION metals, AMYLOID, NEUTRALIZATION (Chemistry), ACID throwing, MUCOPOLYSACCHARIDES

Abstract

Zinc ions form complexes with β-amyloid peptides and play an important role in Alzheimer's disease pathogenesis. It has been demonstrated by turbidimetry and correlation spectroscopy that synthetic peptide Aβ16 representing the metal-binding domain of β-amyloid is able to interact with nucleic acids, chondroitin polysulfate, and dextran sulfates in the presence of zinc ions. The amino acid D7H substitution enhanced the peptide binding to polyanions, whereas the H6R and H6A-H13A substitutions abolished this interaction. It is suggested that the metal-binding domain may serve as a zinc-dependent site of β-amyloid interaction with biological polyanions including DNA, RNA, and glycosaminoglycans. [ABSTRACT FROM AUTHOR]

Published

2016