Leszek Łankiewicz scite author profile

The beta-amyloid (Abeta) peptide is a principal component of insoluble amyloid plaques that are characteristic neuropathological features of Alzheimer disease (AD). The amyloid peptide also exists as a normal soluble protein that undergoes a pathogenic transition to an aggregated, fibrous form. This transition can be affected by extraneous proteinaceous elements and nonproteinaceous elements such as copper ions, which may promote aggregation and/or stabilization of the fibrils. Copper has been found in abnormally high concentrations in amyloid plaques and AD-affected neuropil, and copper-selective chelators have been shown to dissolve Abeta peptide from postmortem brain specimens. Although Cu(2+) is an essential element for life and the function of numerous enzymes is basic to neurobiology, free or incorrectly bound Cu(2+) can also catalyze generation of the most damaging radicals, such as hydroxyl radical, giving a chemical modification of the protein, alternations in protein structure and solubility, and oxidative damage to surrounding tissue.

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Copper(II) complexation by human and mouse fragments (11–16) of β-amyloid peptide

Kowalik-Jankowska

Ruta-Dolejsz

Wiśniewska

et al. 2000

J. Chem. Soc., Dalton Trans.

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A potentiometric and spectroscopic (UV-Vis, CD, NMR and EPR) study of copper() bonding to the N-terminal (11-16) of human and mouse fragments of β-amyloid peptide (EVHHQK-NH 2 , EVRHQK-NH 2 and their Nblocked derivatives) was performed. The results indicate that the hexapeptide amide EVHHQK-NH 2 forms in the pH range 4.5-10.5 complexes in which the coordination of copper() is typical {NH 2 , 2N Ϫ , N Im } for the peptide sequence Xaa-Yaa-His. The mouse fragment containing the N-terminal amino group free in a wide pH range is coordinated through the terminal amino group, carbonyl oxygen or one or two deprotonated amide nitrogens from the N-termini, while the fourth coordination site is occupied by a nitrogen donor of imidazole in the form of a macrochelate. When the amino group is blocked (Ac-EVRHQK-NH 2 ) the imidazole nitrogen of the histidine residue acts as an anchoring bonding site and at higher pH the 3N and 4N complexes are formed with the amide nitrogens coordinated. A blocked hexapeptide modeling a part of human β-amyloid peptide (Ac-EVHHQK-NH 2 ) forms complexes with coordination through imidazole nitrogens both of histidine residues over a broad pH range. With increasing pH the amide nitrogens are also coordinated. In a wide pH range including physiological, Ac-EVHHQK-NH 2 (human fragment) is much more effective in copper() ion bonding than is Ac-EVRHQK-NH 2 (mouse fragment).

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Structural studies of cysteine proteases and their inhibitors.

Grzonka¹,

Jankowska²,

Kasprzykowski³

et al. 2001

Acta Biochim Pol

119

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Cysteine proteases (CPs) are responsible for many biochemical processes occurring in living organisms and they have been implicated in the development and progression of several diseases that involve abnormal protein turnover. The activity of CPs is regulated among others by their specific inhibitors: cystatins. The main aim of this review is to discuss the structure-activity relationships of cysteine proteases and cystatins, as well as of some synthetic inhibitors of cysteine proteases structurally based on the binding fragments of cystatins.

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Products of Cu(II)-catalyzed oxidation in the presence of hydrogen peroxide of the 1–10, 1–16 fragments of human and mouse β-amyloid peptide

Kowalik-Jankowska

Ruta

Wiśniewska

et al. 2004

Journal of Inorganic Biochemistry

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