Karol Dowjat scite author profile

A transgenic gpt+ Chinese hamster cell line (G12) was found to be susceptible to carcinogenic nickel-induced inactivation of gpt expression without mutagenesis or deletion of the transgene. Many nickel-induced 6-thioguanine-resistant variants spontaneously reverted to actively express gpt, as indicated by both reversion assays and direct enzyme measurements. Since reversion was enhanced in many of the nickel-induced variant cell lines following 24-h treatment with the demethylating agent 5-azacytidine, the involvement of DNA methylation in silencing gpt expression was suspected. This was confirmed by demonstrations of increased DNA methylation, as well as by evidence indicating condensed chromatin and heterochromatinization of the gpt integration site in 6-thioguanine-resistant cells. Upon reversion to active gpt expression, DNA methylation and condensation are lost. We propose that DNA condensation and methylation result in heterochromatinization of the gpt sequence with subsequent inheritance of the now silenced gene. This mechanism is supported by direct evidence showing that acute nickel treatment of cultured cells, and of isolated nuclei in vitro, can indeed facilitate gpt sequence-specific chromatin condensation. Epigenetic mechanisms have been implicated in the actions of some nonmutagenic carcinogens, and DNA methylation changes are now known to be important in carcinogenesis. This paper further supports the emerging theory that nickel is a human carcinogen that can alter gene expression by enhanced DNA methylation and compaction, rather than by mutagenic mechanisms.

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The role of overexpressed DYRK1A protein in the early onset of neurofibrillary degeneration in Down syndrome

Węgiel

et al. 2008

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The gene encoding the minibrain kinase/dualspeciWcity tyrosine phosphorylated and regulated kinase 1A (DYRK1A) is located in the Down syndrome (DS) critical region of chromosome 21. The third copy of DYRK1A is believed to contribute to abnormal brain development in patients with DS. In vitro studies showing that DYRK1A phosphorylates tau protein suggest that this kinase is also involved in tau protein phosphorylation in the human brain and contributes to neuroWbrillary degeneration, and that this contribution might be enhanced in patients with DS. To explore this hypothesis, the brain tissue from 57 subjects including 16 control subjects, 21 patients with DS, and 20 patients with sporadic Alzheimer's disease (AD) was examined with two antibodies to the amino-terminus of DYRK1A (7F3 and G-19), as well as two polyclonal antibodies to its carboxy-terminus (X1079 and 324446). Western blots demonstrated higher levels of full-length DYRK1A in the brains of patients with DS when compared to control brains. Immunocytochemistry revealed that DYRK1A accumulates in neuroWbrillary tangles (NFTs) in subjects with sporadic AD and in subjects with DS/AD. Overexpression of DYRK1A in patients with DS was associated with an increase in DYRK1A-positive NFTs in a gene dosage-dependent manner. Results support the hypothesis that overexpressed DYRK1A contributes to neuroWbrillary degeneration in DS more signiWcantly than in subjects with two copies of the DYRK1A gene and sporadic AD. Immunoreactivity with antibodies against DYRK1A not only in NFTs but also in granules in granulovacuolar degeneration and in corpora amylacea suggests that DYRK1A is involved in all three forms of degeneration and that overexpression of this kinase may contribute to the early onset of these pathologies in DS.

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Cell type- and brain structure-specific patterns of distribution of minibrain kinase in human brain

et al. 2004

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Heterochromatic proteins specifically enhance nickel-induced 8-oxo-dG formation

et al. 1995

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7,8-Dihydro-8-oxo-2'-deoxyguanosine (8-oxo-dG) was measured as an indicator of nickel-induced oxidative base damage in the presence of H2O2. Heterochromatic proteins isolated from Chinese hamster liver cells enhanced the formation of 8-oxo-dG induced by NiCl2 and H2O2 in vitro, whereas euchromatic proteins inhibited this reaction. The inhibitory effect of euchromatic proteins on dG oxidation may be due to the oxygen radical scavenging effects of low molecular weight protein-rich fractions. Gel electrophoresis confirmed that histone H1 was present at a higher concentration in heterochromatin than in euchromatin. It is believed that the presence of nickel-protein complexes in cells is crucial for the formation of reactive oxygen species (ROS). We found that Ni2+ binds to histone H1 and core histones as determined by 63Ni autoradiography of proteins on nitrocellulose membranes. In vitro studies showed that commercially purified histone H1, and to a considerably lesser extent core histones, enhanced the NiCl2 and H2O2 catalyzed formation of 8-oxo-dG in a reaction containing free dG base. Since histone H1 is a lysine- and alanine-rich protein, the levels of 8-oxo-dG induced by NiCl2 and H2O2 were studied in the presence of these amino acids and found to be enhanced by them. These results suggest that nickel may specifically produce oxidative DNA damage in heterochromatin because of the nature of its binding to histone H1 and core histones. This selective oxidation of genetically inactive heterochromatin may explain why nickel compounds which generate oxygen radicals and oxidize DNA bases are inactive in most gene mutation assays.

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Karol Dowjat

Carcinogenic Nickel Silences Gene Expression by Chromatin Condensation and DNA Methylation: a New Model for Epigenetic Carcinogens

The role of overexpressed DYRK1A protein in the early onset of neurofibrillary degeneration in Down syndrome

Cell type- and brain structure-specific patterns of distribution of minibrain kinase in human brain

Heterochromatic proteins specifically enhance nickel-induced 8-oxo-dG formation

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