Your search keyword '"amyloid-β peptides"' showing total 3 results

1. Oxidase Reactivity of CuII Bound to N-Truncated Aβ Peptides Promoted by Dopamine

Author

Stefania Nicolis, Chiara Bacchella, Luigi Casella, Enrico Monzani, and Simone Dell'Acqua

Subjects

QH301-705.5, Stereochemistry, chemistry.chemical_element, Peptide, Inner sphere electron transfer, 010402 general chemistry, 01 natural sciences, Redox, Catalysis, amyloid-β peptides, Inorganic Chemistry, Metal, chemistry.chemical_compound, oxidative stress, Reactivity (chemistry), Biology (General), Physical and Theoretical Chemistry, QD1-999, Molecular Biology, Spectroscopy, chemistry.chemical_classification, Oxidase test, Catechol, 010405 organic chemistry, Organic Chemistry, neurodegeneration, General Medicine, Copper, 0104 chemical sciences, Computer Science Applications, Chemistry, chemistry, visual_art, copper, visual_art.visual_art_medium, dopamine, Alzheimer’s disease

Abstract

The redox chemistry of copper(II) is strongly modulated by the coordination to amyloid-β peptides and by the stability of the resulting complexes. Amino-terminal copper and nickel binding motifs (ATCUN) identified in truncated Aβ sequences starting with Phe4 show very high affinity for copper(II) ions. Herein, we study the oxidase activity of [Cu–Aβ4−x] and [Cu–Aβ1−x] complexes toward dopamine and other catechols. The results show that the CuII–ATCUN site is not redox-inert, the reduction of the metal is induced by coordination of catechol to the metal and occurs through an inner sphere reaction. The generation of a ternary [CuII–Aβ–catechol] species determines the efficiency of the oxidation, although the reaction rate is ruled by reoxidation of the CuI complex. In addition to the N-terminal coordination site, the two vicinal histidines, His13 and His14, provide a second Cu-binding motif. Catechol oxidation studies together with structural insight from the mixed dinuclear complexes Ni/Cu–Aβ4−x reveal that the His-tandem is able to bind CuII ions independently of the ATCUN site, but the N-terminal metal complexation reduces the conformational mobility of the peptide chain, preventing the binding and oxidative reactivity toward catechol of CuII bound to the secondary site.

Published

2021

2. Oxidase Reactivity of Cu

Author

Chiara, Bacchella, Simone, Dell'Acqua, Stefania, Nicolis, Enrico, Monzani, and Luigi, Casella

Subjects

Models, Molecular, Amyloid beta-Peptides, Dopamine, Molecular Conformation, neurodegeneration, Article, amyloid-β peptides, Coordination Complexes, copper, oxidative stress, Histidine, Oxidoreductases, Oxidation-Reduction, Alzheimer’s disease

Abstract

The redox chemistry of copper(II) is strongly modulated by the coordination to amyloid-β peptides and by the stability of the resulting complexes. Amino-terminal copper and nickel binding motifs (ATCUN) identified in truncated Aβ sequences starting with Phe4 show very high affinity for copper(II) ions. Herein, we study the oxidase activity of [Cu–Aβ4−x] and [Cu–Aβ1−x] complexes toward dopamine and other catechols. The results show that the CuII–ATCUN site is not redox-inert; the reduction of the metal is induced by coordination of catechol to the metal and occurs through an inner sphere reaction. The generation of a ternary [CuII–Aβ–catechol] species determines the efficiency of the oxidation, although the reaction rate is ruled by reoxidation of the CuI complex. In addition to the N-terminal coordination site, the two vicinal histidines, His13 and His14, provide a second Cu-binding motif. Catechol oxidation studies together with structural insight from the mixed dinuclear complexes Ni/Cu–Aβ4−x reveal that the His-tandem is able to bind CuII ions independently of the ATCUN site, but the N-terminal metal complexation reduces the conformational mobility of the peptide chain, preventing the binding and oxidative reactivity toward catechol of CuII bound to the secondary site.

Published

2021

3. Oxidase Reactivity of Cu II Bound to N -Truncated Aβ Peptides Promoted by Dopamine.

Author

Bacchella, Chiara, Dell'Acqua, Simone, Nicolis, Stefania, Monzani, Enrico, Casella, Luigi, and Teixeira, Antonio L.

Subjects

*DOPAMINE, *HISTIDINE, *PEPTIDES, *CATECHOL, *AMINE oxidase, *COPPER

Abstract

The redox chemistry of copper(II) is strongly modulated by the coordination to amyloid-β peptides and by the stability of the resulting complexes. Amino-terminal copper and nickel binding motifs (ATCUN) identified in truncated Aβ sequences starting with Phe4 show very high affinity for copper(II) ions. Herein, we study the oxidase activity of [Cu–Aβ4−x] and [Cu–Aβ1−x] complexes toward dopamine and other catechols. The results show that the CuII–ATCUN site is not redox-inert; the reduction of the metal is induced by coordination of catechol to the metal and occurs through an inner sphere reaction. The generation of a ternary [CuII–Aβ–catechol] species determines the efficiency of the oxidation, although the reaction rate is ruled by reoxidation of the CuI complex. In addition to the N-terminal coordination site, the two vicinal histidines, His13 and His14, provide a second Cu-binding motif. Catechol oxidation studies together with structural insight from the mixed dinuclear complexes Ni/Cu–Aβ4−x reveal that the His-tandem is able to bind CuII ions independently of the ATCUN site, but the N-terminal metal complexation reduces the conformational mobility of the peptide chain, preventing the binding and oxidative reactivity toward catechol of CuII bound to the secondary site. [ABSTRACT FROM AUTHOR]

Published

2021