Ingrid Eftedal scite author profile

We have expressed a human recombinant uracil-DNA glycosylase (UNG delta 84) closely resembling the mature form of the human enzyme (UNG, from the UNG gene) in Escherichia coli and purified the protein to apparent homogeneity. This form, which lacks the first seven nonconserved amino acids at the amino terminus, has properties similar to a 50% homogeneous UDG purified from human placenta except for a lower salt optimum and a slightly lower specific activity. The recombinant enzyme removed U from ssDNA approximately 3-fold more rapidly than from dsDNA. In the presence of 10 mM NaCl, Km values were 0.45 and 1.6 microM with ssDNA and dsDNA, respectively, but Km values increased significantly with higher NaCl concentrations. The pH optimum for UNG delta 84 was 7.7-8.0; the activation energy, 50.6 kJ/mol; and the pI between 10.4 and 10.8. The enzyme displays a striking sequence specificity in removal of U from UA base pairs in M13 dsDNA. The sequence specificity for removal of U from UG mismatches (simulating the situation after deamination of C) was essentially similar to removal from UA matches when examined in oligonucleotides. However, removal of U from UG mismatches was in general slightly faster, and in some cases significantly faster, than removal from UA base pairs. Immunofluorescence studies using polyclonal antibodies against UNG delta 84 demonstrated that the major fraction of UNG was located in the nucleus. Furthermore, > 98% of the total uracil-DNA glycosylase activity from HeLa cell extracts was inhibited by the antibodies, indicating that the UNG protein represents the major uracil-DNA glycosylase in the cells.

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Consensus sequences for good and poor removal of uracil from double stranded DNA by uracil-DNA glycosylase

Eftedal¹,

Guddal²,

Slupphaug³

et al. 1993

Nucl Acids Res

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We have purified uracil DNA-glycosylase (UDG) from calf thymus 32,000-fold and studied its biochemical properties, including sequence specificity. The enzyme is apparently closely related to human UDG, since it was recognised by a polyclonal antibody directed towards human UDG. SDS-PAGE and western analysis indicate an apparent M(r) = 27,500. Bovine UDG has a 1.7-fold preference for single stranded over double stranded DNA as a substrate. Sequence specificity for uracil removal from dsDNA was examined for bovine and Escherichia coli UDG, using DNA containing less than one dUMP residue per 100 nucleotides and synthetic oligonucleotides containing one dUMP residue. Comparative studies involving about 40 uracil sites indicated similar specificities for both UDGs. We found more than a 10-fold difference in rates of uracil removal between different sequences. 5'-G/CUT-3' and 5'-G/CUG/C-3' were consensus sequences for poor repair whereas 5'-A/TUAA/T-3' was a consensus for good repair. Sequence specificity was verified in double stranded oligonucleotides, but not in single stranded ones, suggesting that the structure of the double stranded DNA helix has influence on sequence specificity. Rate of uracil removal appeared to be slightly faster from U:A base pairs as compared to U:G mis-matches. The results indicate that sequence specific repair may be a determinant to be considered in mutagenesis.

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Do CYP2D6 genotypes reflect oxycodone requirements for cancer patients treated for cancer pain? A cross-sectional multicentre study

Andreassen

Eftedal

Klepstad

et al. 2011

Eur J Clin Pharmacol

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ObjectiveOpioids are recommended by the World Health Organization for moderate to severe cancer pain. Oxycodone is one of the most commonly used opioids and is metabolized in the liver by CYP3A4 and CYP2D6 enzymes. The aim of this cross-sectional study was to assess the relationship between oxycodone pharmacokinetics, pharmacodynamics and the CYP2D6 genotypes “poor metaboliser” (PM), “extensive metaboliser” (EM) and “ultra-rapid metaboliser” (URM) in a cohort of patients with cancer pain.MethodsThe patients were genotyped for the most common CYP2D6 variants and serum concentrations of oxycodone and metabolites were determined. Pain was assessed using the Brief Pain Inventory (BPI). The EORTC QLQ-C30 was used to assess the symptoms of tiredness and nausea. Cognitive function was assessed by the Mini Mental State (MMS) examination. Associations were examined by analyses of variance (ANOVA) and covariance (ANCOVA), or ordinal logistic regressions with and without covariates.ResultsThe sample consisted of 27 PM, 413 EM (including heterozygotes) and 10 URM. PM had lower oxymorphone and noroxymorphone serum concentrations and oxymorphone to oxycodone ratios than EM and URM. No differences between PM, EM and URM in pain intensity, nausea, tiredness or cognitive function was found.ConclusionCYP2D6 genotypes caused expected differences in pharmacokinetics, but they had no pharmacodynamic consequence. CYP2D6 genotypes did not influence pain control, the adverse symptoms nausea and sedation or the risk for cognitive failure in this study of patients treated with oxycodone for cancer pain.

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Oxidation of Thymine to 5-Formyluracil in DNA: Mechanisms of Formation, Structural Implications, and Base Excision by Human Cell Free Extracts

Bjelland

Eide²,

Time³

et al. 1995

Biochemistry

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Oxidative agents produce several different types of base modifications in DNA, and only a few of these have been properly characterized with respect to mechanisms of formation and biological implications. We have established a procedure using neutral thermal hydrolysis and reverse phase high-performance liquid chromatography to determine the content of the oxidation product 5-formyluracil (5-foU) in DNA. With this method, it is shown that 5-foU residues are formed with high frequency from thymine by quinone-sensitized UV-A photooxidation. Since 5-foU is also induced by ionizing radiation, it appears to be formed under conditions where thymidine radical cations are generated and react with molecular oxygen. It was previously shown that 5-foU is formed directly from [methyl-3H]thymine residues in radioactively labeled DNA by two consecutive transmutations of 3H to 3He. The theoretical basis for the kinetics of such conversion is presented in this paper, and the calculated yields are confirmed experimentally by measuring the content of 5-foU in [methyl-3H]thymine-labeled DNA aged for different time periods. Such DNA contains virtually only 5-(hydroxymethyl)uracil and 5-foU, apart from normal bases, and is therefore very useful for the investigation of repair enzyme activities involved in the repair of 5-foU-containing DNA. Using this substrate, a DNA glycosylase activity was identified in human cell extracts for the removal of 5-foU.(ABSTRACT TRUNCATED AT 250 WORDS)

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Sequence specificity for removal of uracil from U·A pairs and U·G mismatches by uracil‐DNA glycosylase from Escherichia coli, and correlation with mutational hotspots

Nilsen¹,

Yazdankhah²,

Eftedal³

et al. 1995

FEBS Letters

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The rate of removal of uracil from different positions in double-stranded DNA by uracii-DNA glycosylase from Escherichia coli varied more than 15-fold. Consensus sequences for good and poor removal were 5'-(A/T)UA(A/T)-3' and 5'-(G/ C)U(T/G/C)-3', respectively. In general, the sequence context surrounding U was more important for the rate of removal than whether U was present in U" A pairs or U-G mispairs. Rates of removal of U from sites of amber mutations in the lacl gene, where mutation frequencies and deamination rates were known, indicated that the observed variation in removal is biologically significant.

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Acute and potentially persistent effects of scuba diving on the blood transcriptome of experienced divers

Eftedal

Ljubković

Jørgensen

et al. 2013

Physiological Genomics

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During scuba diving, the circulatory system is stressed by an elevated partial pressure of oxygen while the diver is submerged and by decompression-induced gas bubbles on ascent to the surface. This diving-induced stress may trigger decompression illness, but the majority of dives are asymptomatic. In this study we have mapped divers' blood transcriptomes with the aim of identifying genes, biological pathways, and cell types perturbed by the physiological stress in asymptomatic scuba diving. Ten experienced divers abstained from diving for >2 wk before performing a 3-day series of daily dives to 18 m depth for 47 min while breathing compressed air. Blood for microarray analysis was collected before and immediately after the first and last dives, and 10 matched nondivers provided controls for predive stationary transcriptomes. MetaCore GeneGo analysis of the predive samples identified stationary upregulation of genes associated with apoptosis, inflammation, and innate immune responses in the divers, most significantly involving genes in the TNFR1 pathway of caspase-dependent apoptosis, HSP60/HSP70 signaling via TLR4, and NF-κB-mediated transcription. Diving caused pronounced shifts in transcription patterns characteristic of specific leukocytes, with downregulation of genes expressed by CD8+ T lymphocytes and NK cells and upregulation of genes expressed by neutrophils, monocytes, and macrophages. Antioxidant genes were upregulated. Similar transient responses were observed after the first and last dive. The results indicate that sublethal oxidative stress elicits the myeloid innate immune system in scuba diving and that extensive diving may cause persistent change in pathways controlling apoptosis, inflammation, and innate immune responses.

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Early genetic responses in rat vascular tissue after simulated diving

Eftedal

Jørgensen

Røsbjørgen

et al. 2012

Physiological Genomics

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Diving causes a transient reduction of vascular function, but the mechanisms behind this are largely unknown. The aim of this study was therefore to analyze genetic reactions that may be involved in acute changes of vascular function in divers. Rats were exposed to 709 kPa of hyperbaric air (149 kPa Po(2)) for 50 min followed by postdive monitoring of vascular bubble formation and full genome microarray analysis of the aorta from diving rats (n = 8) and unexposed controls (n = 9). Upregulation of 23 genes was observed 1 h after simulated diving. The differential gene expression was characteristic of cellular responses to oxidative stress, with functions of upregulated genes including activation and fine-tuning of stress-responsive transcription, cytokine/cytokine receptor signaling, molecular chaperoning, and coagulation. By qRT-PCR, we verified increased transcription of neuron-derived orphan receptor-1 (Nr4a3), plasminogen activator inhibitor 1 (Serpine1), cytokine TWEAK receptor FN14 (Tnfrsf12a), transcription factor class E basic helix-loop-helix protein 40 (Bhlhe40), and adrenomedullin (Adm). Hypoxia-inducible transcription factor HIF1 subunit HIF1-α was stabilized in the aorta 1 h after diving, and after 4 h there was a fivefold increase in total protein levels of the procoagulant plasminogen activator inhibitor 1 (PAI1) in blood plasma from diving rats. The study did not have sufficient power for individual assessment of effects of hyperoxia and decompression-induced bubbles on postdive gene expression. However, differential gene expression in rats without venous bubbles was similar to that of all the diving rats, indicating that elevated Po(2) instigated the observed genetic reactions.

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Endothelial dysfunction in small arteries and early signs of atherosclerosis in ApoE knockout rats

Ardestani

Eftedal

Pedersen

et al. 2020

Sci Rep

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Endothelial dysfunction is recognized as a major contributor to atherosclerosis and has been suggested to be evident far before plaque formation. Endothelial dysfunction in small resistance arteries has been suggested to initiate long before changes in conduit arteries. In this study, we address early changes in endothelial function of atherosclerosis prone rats. Male ApoE knockout (KO) rats (11- to 13-weeks-old) were subjected to either a Western or standard diet. The diet intervention continued for a period of 20–24 weeks. Endothelial function of pulmonary and mesenteric arteries was examined in vitro using an isometric myograph. We found that Western diet decreased the contribution of cyclooxygenase (COX) to control the vascular tone of both pulmonary and mesenteric arteries. These changes were associated with early stage atherosclerosis and elevated level of plasma total cholesterol, LDL and triglyceride in ApoE KO rats. Chondroid-transformed smooth muscle cells, calcifications, macrophages accumulation and foam cells were also observed in the aortic arch from ApoE KO rats fed Western diet. The ApoE KO rats are a new model to study endothelial dysfunction during the earlier stages of atherosclerosis and could help us improve preclinical drug development.

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Ingrid Eftedal

Properties of a Recombinant Human Uracil-DNA Glycosylase from the UNG Gene and Evidence that UNG Encodes the Major Uracil-DNA Glycosylase

Consensus sequences for good and poor removal of uracil from double stranded DNA by uracil-DNA glycosylase

Do CYP2D6 genotypes reflect oxycodone requirements for cancer patients treated for cancer pain? A cross-sectional multicentre study

Oxidation of Thymine to 5-Formyluracil in DNA: Mechanisms of Formation, Structural Implications, and Base Excision by Human Cell Free Extracts

Sequence specificity for removal of uracil from U·A pairs and U·G mismatches by uracil‐DNA glycosylase from Escherichia coli, and correlation with mutational hotspots

Acute and potentially persistent effects of scuba diving on the blood transcriptome of experienced divers

Early genetic responses in rat vascular tissue after simulated diving

Endothelial dysfunction in small arteries and early signs of atherosclerosis in ApoE knockout rats

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