Emma L. Meczes scite author profile

A type II topoisomerase is essential for decatenating DNA replication products, and it accomplishes this task by passing one DNA duplex through a transient break in a second duplex. The B' domain of topoisomerase II contains three highly conserved motifs, EGDSA, PL(R/K)GK(I/L/M)LNVR, and IMTD(Q/A)DXD. We have investigated these motifs in topoisomerase II beta by mutagenesis, and report that they play a critical role in establishing the DNA cleavage-religation equilibrium. In addition, the mutations E477Q (EGDSA) and K505E (PLRGKILNVR) increase the optimal magnesium ion concentration for strand passage, without affecting the Mg(2+) dependence of ATP hydrolysis. It is likely that the binding affinity of the magnesium ion(s) specifically required for DNA cleavage has been reduced by these mutations. The crystal structure of yeast topo II indicates that residues E477 and K505 may help to position the three aspartate residues of the IMTD(Q/A)DXD motif for magnesium ion coordination, and we propose two possible locations for the magnesium ion binding site(s). These observations are consistent with a previous model in which the B' domain is positioned such that these acidic residues lie next to the active site tyrosine residue. A magnesium ion bound by these aspartate residues could therefore mediate the DNA cleavage-religation reaction.

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The Impact of the Human DNA Topoisomerase II C-Terminal Domain on Activity

Meczes

Gilroy

West

et al. 2008

PLoS ONE

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BackgroundType II DNA topoisomerases (topos) are essential enzymes needed for the resolution of topological problems that occur during DNA metabolic processes. Topos carry out an ATP-dependent strand passage reaction whereby one double helix is passed through a transient break in another. Humans have two topoII isoforms, α and β, which while enzymatically similar are differentially expressed and regulated, and are thought to have different cellular roles. The C-terminal domain (CTD) of the enzyme has the most diversity, and has been implicated in regulation. We sought to investigate the impact of the CTD domain on activity.Methodology/Principle FindingsWe have investigated the role of the human topoII C-terminal domain by creating constructs encoding C-terminally truncated recombinant topoIIα and β and topoIIα+β-tail and topoIIβ+α-tail chimeric proteins. We then investigated function in vivo in a yeast system, and in vitro in activity assays. We find that the C-terminal domain of human topoII isoforms is needed for in vivo function of the enzyme, but not needed for cleavage activity. C-terminally truncated enzymes had similar strand passage activity to full length enzymes, but the presence of the opposite C-terminal domain had a large effect, with the topoIIα-CTD increasing activity, and the topoIIβ-CTD decreasing activity.Conclusions/Significance In vivo complementation data show that the topoIIα C-terminal domain is needed for growth, but the topoIIβ isoform is able to support low levels of growth without a C-terminal domain. This may indicate that topoIIβ has an additional localisation signal. In vitro data suggest that, while the lack of any C-terminal domain has little effect on activity, the presence of either the topoIIα or β C-terminal domain can affect strand passage activity. Data indicates that the topoIIβ-CTD may be a negative regulator. This is the first report of in vitro data with chimeric human topoIIs.

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Amsacrine-promoted DNA cleavage site determinants for the two human DNA topoisomerase II isoforms α and β

Marsh

Willmore

Tinelli

et al. 1996

Biochemical Pharmacology

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Therapy-induced carboplatin–DNA adduct levels in human ovarian tumours in relation to assessment of adduct measurement in mouse tissues

Jarvis

Meczes

Thomas

et al. 2012

Biochemical Pharmacology

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Specific adducts recognised by a monoclonal antibody against cisplatin-modified DNA

Meczes

Azim-Araghi

Ottley

et al. 2005

Biochemical Pharmacology

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Emma L. Meczes

Mutagenesis of E477 or K505 in the B‘ Domain of Human Topoisomerase IIβ Increases the Requirement for Magnesium Ions during Strand Passage

The Impact of the Human DNA Topoisomerase II C-Terminal Domain on Activity

Amsacrine-promoted DNA cleavage site determinants for the two human DNA topoisomerase II isoforms α and β

Therapy-induced carboplatin–DNA adduct levels in human ovarian tumours in relation to assessment of adduct measurement in mouse tissues

Specific adducts recognised by a monoclonal antibody against cisplatin-modified DNA

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