Human Prion Protein (hPrPC) is able to bind up to six Cu2+ ions. Four of them can be allocated in the “octarepeat domain”, a region of the unstructured N-terminal domain containing four tandem-repetitions of the sequence PHGGGWGQ. It is widely accepted that the additional binding sites correspond to His-96 and His-111 residues. However, recent literature does not agree on the role and the behavior of these sites in Cu2+ complexation to hPrPC. In order to shed more light on this topic, some peptidic analogues of the PrP92-113 fragment were synthesized: (H96A)PrP92-113, (H111A)PrP92-113, (H96Nτ-Me-His)PrP92-113, (H111Nτ-Me-His)PrP92-113, (H96Nτ-Me-His)PrP92-100, (H111Nτ-Me-His)PrP106-113, where an alanine or a histidine methylated at the τ nitrogen atom of its imidazole ring have been substituted to His-96 or His-111. The first two ligands allowed to confirm that His-111 binding site is stronger than His-96 one: they act as independent sites even at Cu2+-ion substoichiometric levels. Neither multi-histidine binding nor bis-complex formation has been detected at neutral pH. Nτ methylation gave evidence that τ nitrogens of imidazole residues can participate in complex-formation only at acidic pH, where displacement of amidic protons by Cu2+ ions is not allowed. Finally, the length of the fragment does not look to have any significant influence on the behavior of the two His-96 and His-111 binding sites, from the point of view of neither the coordination geometry nor their relative strength.

The complex-formation behaviour of His residues in the fifth Cu2+ binding site of human Prion protein: a close look

REMELLI, Maurizio;BACCO, Dimitri;GUERRINI, Remo;
2009

Abstract

Human Prion Protein (hPrPC) is able to bind up to six Cu2+ ions. Four of them can be allocated in the “octarepeat domain”, a region of the unstructured N-terminal domain containing four tandem-repetitions of the sequence PHGGGWGQ. It is widely accepted that the additional binding sites correspond to His-96 and His-111 residues. However, recent literature does not agree on the role and the behavior of these sites in Cu2+ complexation to hPrPC. In order to shed more light on this topic, some peptidic analogues of the PrP92-113 fragment were synthesized: (H96A)PrP92-113, (H111A)PrP92-113, (H96Nτ-Me-His)PrP92-113, (H111Nτ-Me-His)PrP92-113, (H96Nτ-Me-His)PrP92-100, (H111Nτ-Me-His)PrP106-113, where an alanine or a histidine methylated at the τ nitrogen atom of its imidazole ring have been substituted to His-96 or His-111. The first two ligands allowed to confirm that His-111 binding site is stronger than His-96 one: they act as independent sites even at Cu2+-ion substoichiometric levels. Neither multi-histidine binding nor bis-complex formation has been detected at neutral pH. Nτ methylation gave evidence that τ nitrogens of imidazole residues can participate in complex-formation only at acidic pH, where displacement of amidic protons by Cu2+ ions is not allowed. Finally, the length of the fragment does not look to have any significant influence on the behavior of the two His-96 and His-111 binding sites, from the point of view of neither the coordination geometry nor their relative strength.
2009
Remelli, Maurizio; D., Valensin; Bacco, Dimitri; E., Gralka; Guerrini, Remo; C., Migliorini; H., Kozłowski
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11392/1377825
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