The impact of the C-terminal domain on the interaction of human DNA topoisomerase II α and β with DNA

Background

Type II DNA topoisomerases are essential, ubiquitous enzymes that act to relieve topological problems arising in DNA from normal cellular activity. Their mechanism of action involves the ATP-dependent transport of one DNA duplex through a transient break in a second DNA duplex; metal ions are essential for strand passage. Humans have two isoforms, topoisomerase IIα and topoisomerase IIβ, that have distinct roles in the cell. The C-terminal domain has been linked to isoform specific differences in activity and DNA interaction.

Methodology/Principal Findings

We have investigated the role of the C-terminal domain in the binding of human topoisomerase IIα and topoisomerase IIβ to DNA in fluorescence anisotropy assays using full length and C-terminally truncated enzymes. We find that the C-terminal domain of topoisomerase IIβ but not topoisomerase IIα affects the binding of the enzyme to the DNA. The presence of metal ions has no effect on DNA binding. Additionally, we have examined strand passage of the full length and truncated enzymes in the presence of a number of supporting metal ions and find that there is no difference in relative decatenation between isoforms. We find that calcium and manganese, in addition to magnesium, can support strand passage by the human topoisomerase II enzymes.

Conclusions/Significance

The C-terminal domain of topoisomerase IIβ, but not that of topoisomerase IIα, alters the enzyme''s K_D for DNA binding. This is consistent with previous data and may be related to the differential modes of action of the two isoforms in vivo. We also show strand passage with different supporting metal ions for human topoisomerase IIα or topoisomerase IIβ, either full length or C-terminally truncated. They all show the same preferences, whereby Mg > Ca > Mn.     

Intracellular localization and metabolism of DNA polymerase α in human cells visualized with monoclonal antibody

Indirect immunofluorescence microscopy with monoclonal antibody against DNA polymerase α revealed the intranuclear localization of DNA polymerase α in G1, S, and G2 phases of transformed human cells, and dispersed cytoplasmic distribution during mitosis. In the quiescent, G0 phase of normal human skin fibroblasts or lymphocytes, the α-enzyme was barely detectable by either immunofluorescence or enzyme activity. By exposing cells to proliferation stimuli, however, DNA polymerase a appeared in the nuclei just prior to onset of DNA synthesis, increased rapidly during S phase, reached the maximum level at late S and G2 phases, and was then redistributed to the daughter cells through mitosis. It was also found that the increase in the amount of DNA polymerase a by proliferation stimuli was not affected by inhibition of DNA synthesis with aphidicolin or hydroxyurea.     

Ratio of 3′ → 5′-exonuclease and DNA polymerase activities in normal and cancer cells of rodents and human

Mutations in genes of DNA polymerases or corrective 3′ → 5′-exonucleases lead to a decrease in the fidelity of DNA biosynthesis throughout the genome, which is accompanied by an increase in the probability of mutagenesis and carcinogenesis. In the present work, activities of 3′ → 5′-exonucleases and DNA polymerases are studied in extracts of rodents and human normal and cancer cells and, for the first time, their integral ratios are measured to elucidate the role of correcting exonucleases in carcinogenesis. Thus, in experiments on cells growing in culture, it has been found that in adult human dermal fibroblasts the value of ratio of activity of 3′ → 5′-exonucleases to the DNA polymerase activity (3′-exo/pol) exceeds this ratio for HeLa cells. A similar situation is also observed in a comparison of normal rat embryo fibroblasts and Syrian hamster A238 transformed fibroblasts. Experiments with extracts of the cells some organs of healthy rats of different ages have shown that in norm the proliferating cells are characterized by higher activities of 3′ → 5′-exonucleases and higher 3′-exo/pol values than in quiescent cells. A comparison of these data allows us to conlude that a disturbance in the functions of corrective 3′ → 5′-exonucleases occurs in pathologically growing cancer cells.     

Inhibition of a novel subspecies of DNA polymerase α by 2′-deoxy-2′-azidoadenosine 5′-triphosphate

DNA polymerase α₁, a subspecies of DNA polymerase α of Ehrlich ascites tumor cells, was associated with a novel RNA polymerase activity and utilized poly(dT) and single-stranded circular fd DNA as a template without added primer in the presence of ribonucleoside triphosphates and a specific stimulating factor. DNA synthesis in the above system was inhibited by the ATP analogue, 2′-deoxy-2′-azidoadenosine 5′-triphosphate more than the DNA synthesis with poly(dT)·oligo(rA) by DNA polymerase α₁ and RNA synthesis by mouse RNA polymerases I and II. Kinetic analysis showed that the analogue inhibited DNA polymerase α₁ activity on poly(dT) competitively with respect to ATP, suggesting that the analogue inhibited RNA synthesis by the associated RNA polymerase activity.     

Comparison of α and β keratin in reptiles

Summary The different patterns of keratin formation that have evolved in the class Reptilia are all variations of a common process. In Squamata (snakes and lizards), a sequence of layers composed of or keratin is formed periodically, after which the old epidermal generation is shed. In Chelonia (turtles and tortoises), the epidermis of the shell is composed of only keratin, whereas the skin of the neck and leg is composed exclusively of keratin. Molting in toto does not occur and shedding is a continuous process comparable to that in avian and mammalian epidermis. In Crocodilia (crocodiles, caimans, alligators) there is only a single layer of cornified cells, but the composition of the layer varies in different parts of the scale. The hinge regions have many of the morphological characteristics of and keratin whereas the center resembles keratin. The living cells beneath contain accumulations of keratohyalin.There are four ultrastructural characteristics of a keratinized layer: 1) cellular outlines remain distinct, 2) a thickened plasma membrane forms during keratinization, 3) 80 Å filaments embedded in an amorphous matrix can be seen, and 4) PAS-positive material accumulates in extracellular spaces between the desmosomes.The layer exhibits none of these features. Instead the cells more or less (depending on species) coalesce into a compact layer which becomes attenuated in the hinge regions. A 30 Å filament pattern can be seen.The mesos layer of squamates resembles the hinge region of crocodilians, exhibiting a combination of the characteristics of both and keratin.This study constitutes publication No. 464 from the Oregon Regional Primate Research Center, supported in part by NIH Grant No. FR-00163.     

Comparison of 3′ and 5′ biotin labelled oligonucleotides for in situ hybridisation

Oligonucleotide probes enzymatically labelled at the 3-end with biotin have been used successfully to detect target RNA and DNA in combination with in situ hybridisation. Addition of multiple biotin residues to the 3-end increases the hybridisation signals, but it is not known whether the same principle is applicable to the 5-end. We have labelled a 35-base oligonucleotide during synthesis with 1, 5 and 12 biotin molecules at the 5-end and compared it to conventional 3-labelling. In additional experiments the probes were labelled at both ends. Probes were applied to histological sections obtained from paraffin-embedded cell-clot-complexes that contain uninfected and Rhinoviral-infected cells, using a standard in situ hybridisation protocol with appropriate controls. Hybridisation signals were compared for intensity of cytoplasmic signal and sensitivity as number of positive cells. Both parameters increased in parallel with higher numbers of biotin residues attached to the 5-end and 12 biotin residues were almost as effective as 3-enzymatic tailing. The sensitivity could be increased above that of either 3- or 5-labelling by the addition of residues at both ends of the probe. The 5-attachment of biotin residues can extend the value of oligonucleotide probes employed for in situ hybridisation and yield increased sensitivity when combined with 3-enzymatic labelling.     

Dimers of human β-defensins and their interactions with the POPG membrane

The stable dimeric structures of human β-defensin (HBD)-3 and -28 have been first computationally identified via a protein docking approach in conjunction with all-atom molecular dynamic simulation. We found that both HBD dimers contain an extended β-sheet platform stabilised mainly by the interaction of second β-sheets and further investigated interaction mechanisms of these dimers including HBD-2 against 1-palmitoyl-2-oleoyl-sn-phosphatidylglycerol membrane bilayer by using coarse-grained model combined with the ElNeDyn network. The extended β-sheet platform of the HBD dimer stayed over the bilayer due to the attachment of the amphipathic region located on one side of the β-sheet platform. The hydrophobic residues of HBDs on the surface interact with the hydrophobic tails of the lipids, whereas the positively charged residues interact with the lipid polar head groups. Finally, antimicrobial nature of HBD-2, HBD-3 and HBD-28 dimers is found to be kept because they are not detached in interacting with the membrane.     

Comparison of Anti-HBV Activity of β-D- and β-L-ddA-5′Monophosphate Prodrugs and Effectiveness in Combination with Lamivudine

Abstract

We have investigated the effects of several β-D-ddA 5′-monophospate (β-D-ddAMP), and their corresponding β-L-enantiomers prodrugs against HBV replication. All ddAMP prodrugs inhibited HBV replication in a dose-dependent manner.     

Spectral Study of Interactions of 4,8,4′-Trimethylpsoralen and 4,4′-Dimethylangelicin Dyes with DNA

Absorption and fluorescence spectra for six new synthetic dyes of 4,8,4′-trimethylpsoralen and 4,4′-dimethylangelicin derivatives containing various terminal substituents at 5′-position have been investigated in different environments using a wide range of the DNA/ligand concentrations. Various spectral and binding characteristics of the DNA-ligand systems have been determined. General principles characterizing mechanisms responsible for changes in the fluorescent properties of nucleotide-specific dyes have been proposed; they take into consideration chemical structure of the dyes, properties of the environment, and degree of sorption on substrate.__________Translated from Biokhimiya, Vol. 70, No. 7, 2005, pp. 995–1007.Original Russian Text Copyright © 2005 by Sibirtsev, Tolmachev, Kovaleva, Garabadzhiu, Traven.