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Publication Detail

Title: Nickel compounds induce histone ubiquitination by inhibiting histone deubiquitinating enzyme activity.

Authors: Ke, Qingdong; Ellen, Thomas P; Costa, Max

Published In Toxicol Appl Pharmacol, (2008 Apr 15)

Abstract: Nickel (Ni) compounds are known carcinogens but underlying mechanisms are not clear. Epigenetic changes are likely to play an important role in nickel ion carcinogenesis. Previous studies have shown epigenetic effects of nickel ions, including the loss of histone acetylation and a pronounced increase in dimethylated H3K9 in nickel-exposed cells. In this study, we demonstrated that both water-soluble and insoluble nickel compounds induce histone ubiquitination (uH2A and uH2B) in a variety of cell lines. Investigations of the mechanism by which nickel increases histone ubiquitination in cells reveal that nickel does not affect cellular levels of the substrates of this modification, i.e., ubiquitin, histones, and other non-histone ubiquitinated proteins. In vitro ubiquitination and deubiquitination assays have been developed to further investigate possible effects of nickel on enzymes responsible for histone ubiquitination. Results from the in vitro assays demonstrate that the presence of nickel did not affect the levels of ubiquitinated histones in the ubiquitinating assay. Instead, the addition of nickel significantly prevents loss of uH2A and uH2B in the deubiquitinating assay, suggesting that nickel-induced histone ubiquitination is the result of inhibition of (a) putative deubiquitinating enzyme(s). Additional supporting evidence comes from the comparison of the response to nickel ions with a known deubiquitinating enzyme inhibitor, iodoacetamide (IAA). This study is the first to demonstrate such effects of nickel ions on histone ubiquitination. It also sheds light on the possible mechanisms involved in altering the steady state of this modification. The study provides further evidence that supports the notion that nickel ions alter epigenetic homeostasis in cells, which may lead to altered programs of gene expression and carcinogenesis.

PubMed ID: 18279901 Exiting the NIEHS site

MeSH Terms: Adenosine Triphosphate/pharmacology; Blotting, Western; Cell Line, Tumor; Cysteine Proteinase Inhibitors/pharmacology; Dose-Response Relationship, Drug; Electrophoresis, Polyacrylamide Gel; Female; Histones/metabolism*; Humans; Iodoacetamide/pharmacology; Leupeptins/pharmacology*; Models, Biological; Nickel/pharmacology*; Proteasome Endopeptidase Complex/metabolism; Proteasome Inhibitors; Time Factors; Ubiquitination/drug effects*; Ubiquitins/metabolism

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