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Molecular mechanisms in nickel carcinogenesis: modeling Ni(II) binding site in histone H4.

Ni(II) compounds are well known as human carcinogens, though the molecular events which are responsible for this are not yet fully understood. It has been proposed that the binding of N(II) ions within the cell nucleus is a crucial element in the mechanism of carcinogenesis. The most abundant protei...

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Autores principales: Zoroddu, Maria Antonietta, Schinocca, Laura, Kowalik-Jankowska, Teresa, Kozlowski, Henryk, Salnikow, Konstantin, Costa, Max
Formato: Texto
Lenguaje:English
Publicado: 2002
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC1241232/
https://www.ncbi.nlm.nih.gov/pubmed/12426119
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author Zoroddu, Maria Antonietta
Schinocca, Laura
Kowalik-Jankowska, Teresa
Kozlowski, Henryk
Salnikow, Konstantin
Costa, Max
author_facet Zoroddu, Maria Antonietta
Schinocca, Laura
Kowalik-Jankowska, Teresa
Kozlowski, Henryk
Salnikow, Konstantin
Costa, Max
author_sort Zoroddu, Maria Antonietta
collection PubMed
description Ni(II) compounds are well known as human carcinogens, though the molecular events which are responsible for this are not yet fully understood. It has been proposed that the binding of N(II) ions within the cell nucleus is a crucial element in the mechanism of carcinogenesis. The most abundant proteins in the cell nucleus are histones, and this makes them the prime candidates for this role. This article is a review of our recent studies of histone H4 models of Ni(II) binding. We analyzed the sequence of the N-terminal tail of the histone H4, Ac-SGRGKGGKGLGKGGAKRH(18)RKVL-Am, for Ni(II) binding. This site has been proposed mainly because of the potent inhibitory effect of Ni(II) on the acetylation of lysine residues near the histidine H(18), and also because of the accessibility of the H4 tail in the histone octamer. Combined potentiometric and spectroscopic studies showed that the histidine 18 acted as an anchoring binding site for metal ions in the peptide investigated. Comparison with the results for Cu(II) binding are also reported. The results allowed us to propose that the binding of Ni(II) is able to promote a secondary structure with organized side-chain orientation on the N-terminal tail of histone H4.
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spelling pubmed-12412322005-11-08 Molecular mechanisms in nickel carcinogenesis: modeling Ni(II) binding site in histone H4. Zoroddu, Maria Antonietta Schinocca, Laura Kowalik-Jankowska, Teresa Kozlowski, Henryk Salnikow, Konstantin Costa, Max Environ Health Perspect Research Article Ni(II) compounds are well known as human carcinogens, though the molecular events which are responsible for this are not yet fully understood. It has been proposed that the binding of N(II) ions within the cell nucleus is a crucial element in the mechanism of carcinogenesis. The most abundant proteins in the cell nucleus are histones, and this makes them the prime candidates for this role. This article is a review of our recent studies of histone H4 models of Ni(II) binding. We analyzed the sequence of the N-terminal tail of the histone H4, Ac-SGRGKGGKGLGKGGAKRH(18)RKVL-Am, for Ni(II) binding. This site has been proposed mainly because of the potent inhibitory effect of Ni(II) on the acetylation of lysine residues near the histidine H(18), and also because of the accessibility of the H4 tail in the histone octamer. Combined potentiometric and spectroscopic studies showed that the histidine 18 acted as an anchoring binding site for metal ions in the peptide investigated. Comparison with the results for Cu(II) binding are also reported. The results allowed us to propose that the binding of Ni(II) is able to promote a secondary structure with organized side-chain orientation on the N-terminal tail of histone H4. 2002-10 /pmc/articles/PMC1241232/ /pubmed/12426119 Text en
spellingShingle Research Article
Zoroddu, Maria Antonietta
Schinocca, Laura
Kowalik-Jankowska, Teresa
Kozlowski, Henryk
Salnikow, Konstantin
Costa, Max
Molecular mechanisms in nickel carcinogenesis: modeling Ni(II) binding site in histone H4.
title Molecular mechanisms in nickel carcinogenesis: modeling Ni(II) binding site in histone H4.
title_full Molecular mechanisms in nickel carcinogenesis: modeling Ni(II) binding site in histone H4.
title_fullStr Molecular mechanisms in nickel carcinogenesis: modeling Ni(II) binding site in histone H4.
title_full_unstemmed Molecular mechanisms in nickel carcinogenesis: modeling Ni(II) binding site in histone H4.
title_short Molecular mechanisms in nickel carcinogenesis: modeling Ni(II) binding site in histone H4.
title_sort molecular mechanisms in nickel carcinogenesis: modeling ni(ii) binding site in histone h4.
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC1241232/
https://www.ncbi.nlm.nih.gov/pubmed/12426119
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