Your search keyword '"Hagen, Lars"' showing total 30 results

1. ALKBH3 partner ASCC3 mediates P-body formation and selective clearance of MMS-induced 1-methyladenosine and 3-methylcytosine from mRNA.

Author

Wollen, Kristian Lied, Hagen, Lars, Vågbø, Cathrine B., Rabe, Renana, Iveland, Tobias S., Aas, Per Arne, Sharma, Animesh, Sporsheim, Bjørnar, Erlandsen, Hilde O., Palibrk, Vuk, Bjørås, Magnar, Fonseca, Davi M., Mosammaparast, Nima, and Slupphaug, Geir

Subjects

*MASS spectrometry, *QUALITY control, *RIBOSOMES, *DEMETHYLASE, *ALKYLATING agents, *RESEARCH, *HETEROCYCLIC compounds, *ANIMAL experimentation, *RESEARCH methodology, *RNA, *MEDICAL cooperation, *EVALUATION research, *COMPARATIVE studies, *TRANSFERASES, *ENZYMES, *TRANSCRIPTION factors, *ADENOSINES, *CYTOPLASM

Abstract

Background: Reversible enzymatic methylation of mammalian mRNA is widespread and serves crucial regulatory functions, but little is known to what degree chemical alkylators mediate overlapping modifications and whether cells distinguish aberrant from canonical methylations.Methods: Here we use quantitative mass spectrometry to determine the fate of chemically induced methylbases in the mRNA of human cells. Concomitant alteration in the mRNA binding proteome was analyzed by SILAC mass spectrometry.Results: MMS induced prominent direct mRNA methylations that were chemically identical to endogenous methylbases. Transient loss of 40S ribosomal proteins from isolated mRNA suggests that aberrant methylbases mediate arrested translational initiation and potentially also no-go decay of the affected mRNA. Four proteins (ASCC3, YTHDC2, TRIM25 and GEMIN5) displayed increased mRNA binding after MMS treatment. ASCC3 is a binding partner of the DNA/RNA demethylase ALKBH3 and was recently shown to promote disassembly of collided ribosomes as part of the ribosome quality control (RQC) trigger complex. We find that ASCC3-deficient cells display delayed removal of MMS-induced 1-methyladenosine (m1A) and 3-methylcytosine (m3C) from mRNA and impaired formation of MMS-induced P-bodies.Conclusions: Our findings conform to a model in which ASCC3-mediated disassembly of collided ribosomes allows demethylation of aberrant m1A and m3C by ALKBH3. Our findings constitute first evidence of selective sanitation of aberrant mRNA methylbases over their endogenous counterparts and warrant further studies on RNA-mediated effects of chemical alkylators commonly used in the clinic. [ABSTRACT FROM AUTHOR]

Published

2021

2. HDACi mediate UNG2 depletion, dysregulated genomic uracil and altered expression of oncoproteins and tumor suppressors in B- and T-cell lines.

Author

Iveland, Tobias S., Hagen, Lars, Sharma, Animesh, Sousa, Mirta M. L., Sarno, Antonio, Wollen, Kristian Lied, Liabakk, Nina Beate, and Slupphaug, Geir

Subjects

*URACIL, *IMMUNOGLOBULIN class switching, *PROTEOMICS, *CELL cycle, *CELL analysis, *GENETIC recombination, *PROTEINS, *RESEARCH, *HETEROCYCLIC compounds, *ANIMAL experimentation, *LIQUID chromatography, *RESEARCH methodology, *MEDICAL cooperation, *EVALUATION research, *COMPARATIVE studies, *MASS spectrometry, *GENOMICS, *T cells, *CELL lines, *ENZYME inhibitors, *MICE, *PHARMACODYNAMICS

Abstract

Background: HDAC inhibitors (HDACi) belong to a new group of chemotherapeutics that are increasingly used in the treatment of lymphocyte-derived malignancies, but their mechanisms of action remain poorly understood. Here we aimed to identify novel protein targets of HDACi in B- and T-lymphoma cell lines and to verify selected candidates across several mammalian cell lines.Methods: Jurkat T- and SUDHL5 B-lymphocytes were treated with the HDACi SAHA (vorinostat) prior to SILAC-based quantitative proteome analysis. Selected differentially expressed proteins were verified by targeted mass spectrometry, RT-PCR and western analysis in multiple mammalian cell lines. Genomic uracil was quantified by LC-MS/MS, cell cycle distribution analyzed by flow cytometry and class switch recombination monitored by FACS in murine CH12F3 cells.Results: SAHA treatment resulted in differential expression of 125 and 89 proteins in Jurkat and SUDHL5, respectively, of which 19 were commonly affected. Among these were several oncoproteins and tumor suppressors previously not reported to be affected by HDACi. Several key enzymes determining the cellular dUTP/dTTP ratio were downregulated and in both cell lines we found robust depletion of UNG2, the major glycosylase in genomic uracil sanitation. UNG2 depletion was accompanied by hyperacetylation and mediated by increased proteasomal degradation independent of cell cycle stage. UNG2 degradation appeared to be ubiquitous and was observed across several mammalian cell lines of different origin and with several HDACis. Loss of UNG2 was accompanied by 30-40% increase in genomic uracil in freely cycling HEK cells and reduced immunoglobulin class-switch recombination in murine CH12F3 cells.Conclusion: We describe several oncoproteins and tumor suppressors previously not reported to be affected by HDACi in previous transcriptome analyses, underscoring the importance of proteome analysis to identify cellular effectors of HDACi treatment. The apparently ubiquitous depletion of UNG2 and PCLAF establishes DNA base excision repair and translesion synthesis as novel pathways affected by HDACi treatment. Dysregulated genomic uracil homeostasis may aid interpretation of HDACi effects in cancer cells and further advance studies on this class of inhibitors in the treatment of APOBEC-expressing tumors, autoimmune disease and HIV-1. [ABSTRACT FROM AUTHOR]

Published

2020

3. Off-target responses in the HeLa proteome subsequent to transient plasmid-mediated transfection.

Author

Hagen, Lars, Sharma, Animesh, Aas, Per Arne, and Slupphaug, Geir

Subjects

*GENE transfection, *HELA cells, *PLASMIDS, *PROTEIN transport, *GENETIC vectors, *RNA splicing, *PROTEOMICS

Abstract

Transient transfection of mammalian cells with plasmid expression vectors and chemical transfection reagents is widely used to study protein transport and dynamics as well as phenotypic alterations mediated by the overexpressed protein. Despite the undisputed impact of this technique, surprisingly little is known about the cellular effects mediated by the transfection process per se. Conceivably, off-target effects could have implications upon proteins or processes being studied and understanding the molecular pathways affected would add value to the interpretation of experimental observations subsequent to cell transfection. Here we have used a SILAC-based proteomic approach to study differentially expressed proteins after transfection of HeLa cells with ECFP vector using a commonly employed non-liposome based transfection reagent, Fugene®HD. Whereas the transfection reagent itself mediated minimal effects upon protein expression, 11 proteins were found to be significantly upregulated after transfection, all of which were associated with an interferon type I/II response. The upregulated proteins might potentially inflict major cellular processes such as RNA splicing, chromatin remodeling, post-translational protein modification and cell cycle control. The results were validated by western analysis as well as quantitative RT-PCR and this demonstrated that an essentially identical response was induced in HeLa by transfection using an empty pUC18 vector, which does not contain a mammalian virus promoter, as well as a liposome-based transfection reagent, Lipofectamine TM 2000. Notably, no induction of the interferon response was observed in HEK293 cells, suggesting that these cells might be preferable to HeLa to avoid undesired off-target effects in transfection studies encompassing interferon-signaling and antiviral responses. [ABSTRACT FROM AUTHOR]

Published

2015

4. Correction to: HDACi mediate UNG2 depletion, dysregulated genomic uracil and altered expression of oncoproteins and tumor suppressors in B- and T-cell lines.

Author

Iveland, Tobias S., Hagen, Lars, Sharma, Animesh, Sousa, Mirta M. L., Sarno, Antonio, Wollen, Kristian Lied, Liabakk, Nina Beate, and Slupphaug, Geir

Subjects

*URACIL, *TUMORS

Abstract

An amendment to this paper has been published and can be accessed via the original article. [ABSTRACT FROM AUTHOR]

Published

2021

5. Psoriasis pathogenesis — Pso p27 is generated from SCCA1 with chymase.

Author

Lysvand, Hilde, Hagen, Lars, Klubicka, Lidija, Slupphaug, Geir, and Iversen, Ole-Jan

Subjects

*PSORIASIS, *INFLAMMATION, *SKIN diseases, *ETIOLOGY of diseases, *IMMUNOLOGIC diseases, *ANTIGENS, *AUTOANTIGENS, *AMINO acid sequence, *SQUAMOUS cell carcinoma

Abstract

Abstract: Psoriasis is a chronic inflammatory skin disease with unknown aetiology. Infiltration of inflammatory cells as the initial event in the development of new psoriatic plaques together with the defined inflamed areas of such lesions argues for an immunological disease with a local production of a causal antigen. The auto-antigen Pso p27 is a protein expressed in the skin lesions. We recently demonstrated that Pso p27 is homologous to the core amino acid sequences of squamous cell carcinoma antigens 1 and 2 (SCCA1/2) and it is apparently generated from SCCA molecules by digestion with highly specific endoproteases. In this communication we demonstrate the generation of Pso p27 from SCCA1 with extracts from psoriatic scale and even more remarkably, the generation of Pso p27 from SCCA1 in the presence of mast cell associated chymase. These findings open up for new therapeutic strategies in psoriasis and probably also in other autoimmune diseases as Pso p27 epitopes have been detected in diseased tissues from patients with various chronic inflammatory diseases. [Copyright &y& Elsevier]

Published

2014

6. Enhanced Efficacy of Bleomycin in Bladder Cancer Cells by Photochemical Internalization.

Author

Yan Baglo, Hagen, Lars, Høgset, Anders, Drabløs, Finn, Otterlei, Marit, and Gederaas, Odrun A.

Abstract

Bleomycin is a cytotoxic chemotherapeutic agent widely used in cancer treatment. However, its efficacy in different cancers is low, possibly due to limited cellular internalization. In this study, a novel approach known as photochemical internalization (PCI) was explored to enhance bleomycin delivery in bladder cancer cells (human T24 and rat AY-27), as bladder cancer is a potential indication for use of PCI with bleomycin. The PCI technique was mediated by the amphiphilic photosensitizer disulfonated tetraphenyl chlorin (TPCS2a) and blue light (435 nm). Two additional strategies were explored to further enhance the cytotoxicity of bleomycin; a novel peptide drug ATX-101 which is known to impair DNA damage responses, and the protease inhibitor E-64 which may reduce bleomycin degradation by inhibition of bleomycin hydrolase. Our results demonstrate that the PCI technique enhances the bleomycin effect under appropriate conditions, and importantly we show that PCI-bleomycin treatment leads to increased levels of DNA damage supporting that the observed effect is due to increased bleomycin uptake. Impairing the DNA damage responses by ATX-101 further enhances the efficacy of the PCI-bleomycin treatment, while inhibiting the bleomycin hydrolase does not. [ABSTRACT FROM AUTHOR]

Published

2014

7. Partial characterisation of gelatinolytic activities in herring (Clupea harengus) and sardine (Sardina pilchardus) possibly involved in post-mortem autolysis of ventral muscle

Author

Felberg, Hanne Solvang, Hagen, Lars, Slupphaug, Geir, Batista, Irineu, Nunes, Maria Leonor, Olsen, Ragnar L., and Martinez, Iciar

Subjects

*AUTOLYSIS, *ATLANTIC herring, *SARDINA, *POSTMORTEM changes, *MUSCLES, *SERINE proteinases, *TANDEM mass spectrometry, *MATRIX-assisted laser desorption-ionization

Abstract

Abstract: The present work aims at identifying enzymatic activities that may contribute to the post-mortem autolysis of the ventral muscle, known as belly bursting, in herring (Clupea harengus). Gelatinolytic proteases extracted from several herring tissues and also from a sardine (Sardina pilchardus) tissue were partially characterised using gelatin zymography, inhibitor analysis, immunodetection with anti-trypsin antibody and MALDI-TOF/TOF peptide sequencing. The results indicate the presence of gelatinolytic trypsin-like serine proteases and metalloproteases in several samples including the ventral muscle of herring. MS/MS analysis gave partial sequences of peptides from some of the proteases, and these were identified as elastase, trypsin and aspartyl aminopeptidase. It is likely that belly bursting in herring is caused by leakage of enzyme-rich fluids from the intestine and/or pyloric caeca which may also contain exogenous proteases from the digestive systems of the prey. [Copyright &y& Elsevier]

Published

2010

8. Cell cycle-specific UNG2 phosphorylations regulate protein turnover, activity and association with RPA.

Author

Hagen, Lars, Kavli, Bodil, Sousa, Mirta M. L., Torseth, Kathrin, Liabakk, Nina B., Sundheim, Ottar, Peňa-Diaz, Javier, Otterlei, Marit, Hørning, Ole, Jensen, Ole N., Krokan, Hans E., and Slupphaug, Geir

Subjects

*CELL cycle, *PHOSPHORYLATION, *DNA, *CYCLIN-dependent kinases, *CHROMATIN, *B cells

Abstract

Human UNG2 is a multifunctional glycosylase that removes uracil near replication forks and in non-replicating DNA, and is important for affinity maturation of antibodies in B cells. How these diverse functions are regulated remains obscure. Here, we report three new phosphoforms of the non-catalytic domain that confer distinct functional properties to UNG2. These are apparently generated by cyclin-dependent kinases through stepwise phosphorylation of S23, T60 and S64 in the cell cycle. Phosphorylation of S23 in late G1/early S confers increased association with replication protein A (RPA) and replicating chromatin and markedly increases the catalytic turnover of UNG2. Conversely, progressive phosphorylation of T60 and S64 throughout S phase mediates reduced binding to RPA and flag UNG2 for breakdown in G2 by forming a cyclin E/c-myc-like phosphodegron. The enhanced catalytic turnover of UNG2 p-S23 likely optimises the protein to excise uracil along with rapidly moving replication forks. Our findings may aid further studies of how UNG2 initiates mutagenic rather than repair processing of activation-induced deaminase-generated uracil at Ig loci in B cells. [ABSTRACT FROM AUTHOR]

Published

2008

9. Genomic uracil and human disease

Author

Hagen, Lars, Peña-Diaz, Javier, Kavli, Bodil, Otterlei, Marit, Slupphaug, Geir, and Krokan, Hans E.

Subjects

*DNA, *DEOXYRIBOSE, *GENES, *LYMPHOMAS

Abstract

Abstract: Uracil is present in small amounts in DNA due to spontaneous deamination of cytosine and incorporation of dUMP during replication. While deamination generates mutagenic U:G mismatches, incorporated dUMP results in U:A pairs that are not directly mutagenic, but may be cytotoxic. In most cells, mutations resulting from uracil in DNA are prevented by error-free base excision repair. However, in B-cells uracil in DNA is also a physiological intermediate in acquired immunity. Here, activation-induced cytosine deaminase (AID) introduces template uracils that give GC to AT transition mutations in the Ig locus after replication. When uracil–DNA glycosylase (UNG2) removes uracil, error-prone translesion synthesis over the abasic site causes other mutations in the Ig locus. Together, these processes are central to somatic hypermutation (SHM) that increases immunoglobulin diversity. AID and UNG2 are also essential for generation of strand breaks that initiate class switch recombination (CSR). Patients lacking UNG2 display a hyper-IgM syndrome with recurrent infections, increased IgM, strongly decreased IgG, IgA and IgE and skewed SHM. UNG2 is also involved in innate immune response against retroviral infections. Ung −/− mice have a similar phenotype and develop B-cell lymphomas late in life. However, there is no evidence indicating that UNG deficiency causes lymphomas in humans. [Copyright &y& Elsevier]

Published

2006

10. On implementation choices for iterative improvement...

Author

Hagen, Lars W., Huang, Dennis J.-H., and Kahng, Andrew B.

Subjects

*ALGORITHMS, *NUMERICAL analysis, *MATHEMATICAL models

Abstract

Shows that implementation choices play an important part for both the FM algorithm of Fiduccia and Mattheyses and the algorithm of Krishnamurthy. Tie breaking in the Fidducia-Mattheyses algorithm; Experimental results for Min Cut bisection and for multiway partitioning; Conclusion.

Published

1997

11. Combining problem reduction and adaptive multistart: A new...

Author

Hagen, Lars W. and Kahng, Andrew B.

Subjects

*ITERATIVE methods (Mathematics), *PARTITIONS (Mathematics)

Abstract

Presents an approach of Fiduccia-Mattheyses (FM)-based iterative partitioning using problem reduction and adaptive multistart concept. Improvements to iterative partitioning; Information about clustered adaptive multistart (CAMS); Experiments performed to compare CAMS against the previous work in partitioning.

Published

1997

12. Comparative study on composition and functional properties of brewer's spent grain proteins precipitated by citric acid and hydrochloric acid.

Author

Farjami, Toktam, Sharma, Animesh, Hagen, Lars, Jensen, Ida-Johanne, and Falch, Eva

Subjects

*BREWER'S spent grain, *HYDROCHLORIC acid, *CITRIC acid, *FOURIER transform infrared spectroscopy, *UNSATURATED fatty acids, *PROTEINS, *GRAIN

Abstract

[Display omitted] • Proteins were extracted from brewers' spent grain (BSG) by alkaline method. • HCl and citric acid (CA) were used as protein precipitants. • CA led to lower protein content and higher carbohydrate and fat content. • The saturated/unsaturated fatty acids ratio was increased by using CA. • CA weakened emulsifying properties while enhancing foaming properties of proteins. Brewer's spent grain (BSG) is an abundant agro-industrial residue and a sustainable low-cost source for extracting proteins. The composition and functionality of BSG protein concentrates are affected by extraction conditions. This study examined the use of citric acid (CA) and HCl to precipitate BSG proteins. The resultant protein concentrates were compared in terms of their composition and functional properties. The BSG protein concentrate precipitated by CA had 10% lower protein content, 5.8% higher carbohydrate, and 5.4% higher lipid content than the sample precipitated by HCl. Hydrophilic/hydrophobic protein and saturated/unsaturated fatty acid ratios increased by 16.9% and 26.5% respectively, in the sample precipitated by CA. The formation of CA-cross-linkages was verified using shotgun proteomics and Fourier transform infrared spectroscopy. Precipitation by CA adversely affected protein solubility and emulsifying properties, while improving foaming properties. This study provides insights into the role of precipitants in modulating the properties of protein concentrates. [ABSTRACT FROM AUTHOR]

Published

2024

13. Progression of monoclonal gammopathy of undetermined significance to multiple myeloma is associated with enhanced translational quality control and overall loss of surface antigens.

Author

Ravn Berg, Sigrid, Dikic, Aida, Sharma, Animesh, Hagen, Lars, Vågbø, Cathrine Broberg, Zatula, Alexey, Misund, Kristine, Waage, Anders, and Slupphaug, Geir

Subjects

*CELL surface antigens, *MULTIPLE myeloma, *QUALITY control, *PLASMA cells, *CANCER cells

Abstract

Background: Despite significant advancements in treatment strategies, multiple myeloma remains incurable. Additionally, there is a distinct lack of reliable biomarkers that can guide initial treatment decisions and help determine suitable replacement or adjuvant therapies when relapse ensues due to acquired drug resistance. Methods: To define specific proteins and pathways involved in the progression of monoclonal gammopathy of undetermined significance (MGUS) to multiple myeloma (MM), we have applied super-SILAC quantitative proteomic analysis to CD138 + plasma cells from 9 individuals with MGUS and 37 with MM. Results: Unsupervised hierarchical clustering defined three groups: MGUS, MM, and MM with an MGUS-like proteome profile (ML) that may represent a group that has recently transformed to MM. Statistical analysis identified 866 differentially expressed proteins between MM and MGUS, and 189 between MM and ML, 177 of which were common between MGUS and ML. Progression from MGUS to MM is accompanied by upregulated EIF2 signaling, DNA repair, and proteins involved in translational quality control, whereas integrin- and actin cytoskeletal signaling and cell surface markers are downregulated. Conclusion: Compared to the premalignant plasma cells in MGUS, malignant MM cells apparently have mobilized several pathways that collectively contribute to ensure translational fidelity and to avoid proteotoxic stress, especially in the ER. The overall reduced expression of immunoglobulins and surface antigens contribute to this and may additionally mediate evasion from recognition by the immune apparatus. Our analyses identified a range of novel biomarkers with potential prognostic and therapeutic value, which will undergo further evaluation to determine their clinical significance. [ABSTRACT FROM AUTHOR]

Published

2024

14. A targeted mass spectrometry immunoassay to quantify osteopontin in fresh-frozen breast tumors and adjacent normal breast tissues.

Author

Macur, Katarzyna, Hagen, Lars, Ciesielski, Tomasz M., Konieczna, Lucyna, Skokowski, Jarosław, Jenssen, Bjørn M., Slupphaug, Geir, and Bączek, Tomasz

Subjects

*BREAST, *BREAST tumors, *BREAST cancer, *LIQUID chromatography-mass spectrometry, *MASS spectrometry, *FROZEN tissue sections, *TISSUES

Abstract

Osteopontin (OPN) is a multifunctional protein that can activate cell-signaling pathways and lead to cancer development and metastasis. Elevated OPN expression was reported in different cancer types, including breast tumors. Here, we present a new immuno-mass spectrometry method for OPN quantification in fresh-frozen malignant and adjacent normal human breast tissues. For quantification we used two proteotypic peptides: OPN-peptide-1 and OPN-peptide-2. Peptide concentrations were determined by liquid chromatography-tandem mass spectrometry (LC-MS/MS) in multiple reaction monitoring (MRM) mode with stable isotope standards (SIS) and immuno-affinity enrichment for isolation of OPN peptides. Based on the OPN-peptide-1, the average OPN concentration in normal breast tissue was 19.42 μg/g, while the corresponding level in breast tumors was 603.9 μg/g. Based on OPN-peptide-2, the average concentration in normal breast tissue was 19.30 μg/g and in breast tumors 535.0 μg/g. In ER/PR/HER2(−) patients the OPN levels in breast tumors were significantly higher than in corresponding normal breast tissue samples, whereas in the single ER/PR/HER2(+) patient the OPN concentration in tumor samples was lower than in normal breast tissue sample. In conclusion, the current method is considered promising for the quantification of OPN in research and in clinical settings and should be further studied in breast cancer patients. A new immuno-mass spectrometry method was successfully developed and applied to determine OPN concentrations in malignant tumor and normal breast tissues from six patients, and the method is promising for OPN quantification in both research and clinical settings. Unlabelled Image • A LC-MRM-MS method for quantifying OPN was developed. • The method allowed for selective determination of unmodified OPN peptides. • The method was tested in cancerous and normal breast tissues of six patients. • Elevated OPN expression was found in ER/PR/HER2(−) cancerous breast tumors. • Osteopontin (OPN) may serve as a marker for particular breast cancer types. • The method should be verified in studies on larger breast cancer patient cohorts. [ABSTRACT FROM AUTHOR]

Published

2019

15. Association of serum cortisol and cortisone levels and risk of recurrence after endocrine treatment in breast cancer.

Author

Wang, Feng, Giskeødegård, Guro F., Skarra, Sissel, Engstrøm, Monica J., Hagen, Lars, Geisler, Jürgen, Mikkola, Tomi S., Tikkanen, Matti J., Debik, Julia, Reidunsdatter, Randi J., and Bathen, Tone F.

Subjects

*CORTISONE, *BREAST cancer, *METASTATIC breast cancer, *STEROID hormones, *HYDROCORTISONE, *CANCER radiotherapy, *RADIOTHERAPY

Abstract

Metabolic reprogramming in breast cancer involves changes in steroid hormone synthesis and metabolism. Alterations in estrogen levels in both breast tissue and blood may influence carcinogenesis, breast cancer growth, and response to therapy. Our aim was to examine whether serum steroid hormone concentrations could predict the risk of recurrence and treatment-related fatigue in patients with breast cancer. This study included 66 postmenopausal patients with estrogen receptor-positive breast cancer who underwent surgery, radiotherapy, and adjuvant endocrine treatment. Serum samples were collected at six different time points [before the start of radiotherapy (as baseline), immediately after radiotherapy, and then 3, 6, 12 months, and 7–12 years after radiotherapy]. Serum concentrations of eight steroid hormones (cortisol, cortisone, 17α-hydroxyprogesterone, 17β-estradiol, estrone, androstenedione, testosterone, and progesterone) were measured using a liquid chromatography–tandem mass spectrometry-based method. Breast cancer recurrence was defined as clinically proven relapse/metastatic breast cancer or breast cancer-related death. Fatigue was assessed with the QLQ-C30 questionnaire. Serum steroid hormone concentrations measured before and immediately after radiotherapy differed between relapse and relapse-free patients [(accuracy 68.1%, p = 0.02, and 63.2%, p = 0.03, respectively, partial least squares discriminant analysis (PLS-DA)]. Baseline cortisol levels were lower in patients who relapsed than in those who did not (p < 0.05). The Kaplan–Meier analysis showed that patients with high baseline concentrations of cortisol (≥ median) had a significantly lower risk of breast cancer recurrence than patients with low cortisol levels (

Published

2023

16. Enhanced efficacy of bleomycin in bladder cancer cells by photochemical internalization.

Author

Baglo, Yan, Hagen, Lars, Høgset, Anders, Drabløs, Finn, Otterlei, Marit, and Gederaas, Odrun A

Published

2014

17. A fast, low-cost, robust and high-throughput method for viral nucleic acid isolation based on NAxtra magnetic nanoparticles.

Author

Ravlo, Erlend, Sousa, Mirta Mittelstedt Leal de, Andersen, Lise Lima, Holberg-Petersen, Mona, Klundby, Ingvild, Aas, Per Arne, Hagen, Lars, Erlandsen, Sten Even, Malmring, Janne Fossum, Ali, Zeeshan, Sharma, Anuvansh, Ottesen, Vegar, Bandyopadhyay, Sulalit, and Bjørås, Magnar

Subjects

*SARS-CoV-2, *NUCLEIC acid isolation methods, *MAGNETIC nanoparticles, *BASE isolation system, *COVID-19, *PLANT viruses, *TRANSCRANIAL magnetic stimulation

Abstract

The year of 2020 was profoundly marked by a global pandemic caused by a strain of coronavirus named severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), the etiological agent of coronavirus disease 2019 (COVID-19). To control disease spread, a key strategy adopted by many countries was the regular testing of individuals for infection. This led to the rapid development of diagnostic testing technologies. In Norway, within a week, our group developed a test kit to quickly isolate viral RNA and safely detect SARS-CoV-2 infection with sensitivity comparable to available kits. Herein, the procedure employed for the detection of SARS-CoV-2 in swab samples from patients using the NTNU-COVID-19 test kit is described in detail. This procedure, based on NAxtra magnetic nanoparticles and an optimized nucleic acid extraction procedure, is robust, reliable, and straightforward, providing high-quality nucleic acids within 14 min. The NAxtra protocol is adaptable and was further validated for extraction of DNA and RNA from other types of viruses. A comparison of the protocol on different liquid handling systems is also presented. Due to the simplicity and low cost of this method, implementation of this technology to diagnose virus infections on a clinical setting would benefit health care systems, promoting sustainability. [ABSTRACT FROM AUTHOR]

Published

2023

18. Protein Phosphatase 2A Holoenzyme Is Targeted to Peroxisomes by Piggybacking and Positively Affects Peroxisomal β-Oxidation.

Author

Kataya, Amr R. A., Heidari, Behzad, Hagen, Lars, Kommedal, Roald, Slupphaug, Geir, and Lillo, Cathrine

Subjects

*PHOSPHATASES, *PLANT enzymes, *PEROXISOMES, *THREONINE, *INDOLE compounds

Abstract

The eukaryotic, highly conserved serine (Ser)/threonine-specific protein phosphatase 2A (PP2A) functions as a heterotrimeric complex composed of a catalytic (C), scaffolding (A), and regulatory (B) subunit. In Arabidopsis (Arabidopsis thaliana), five, three, and 17 genes encode different C, A, and B subunits, respectively. We previously found that a B subunit, B'θ, localized to peroxisomes due to its C-terminal targeting signal Ser-Ser-leucine. This work shows that PP2A C2, C5, and A2 subunits interact and colocalize with B'θ in peroxisomes. C and A subunits lack peroxisomal targeting signals, and their peroxisomal import depends on B'θ and appears to occur by piggybacking transport. B'θ knockout mutants were impaired in peroxisomal β-oxidation as shown by developmental arrest of seedlings germinated without sucrose, accumulation of eicosenoic acid, and resistance to protoauxins indole-butyric acid and 2,4-dichlorophenoxybutyric acid. All of these observations strongly substantiate that a full PP2A complex is present in peroxisomes and positively affects β-oxidation of fatty acids and protoauxins. [ABSTRACT FROM AUTHOR]

Published

2015

19. The UNG2 Arg88Cys variant abrogates RPA-mediated recruitment of UNG2 to single-stranded DNA

Author

Torseth, Kathrin, Doseth, Berit, Hagen, Lars, Olaisen, Camilla, Liabakk, Nina-Beate, Græsmann, Heidi, Durandy, Anne, Otterlei, Marit, Krokan, Hans E., Kavli, Bodil, and Slupphaug, Geir

Subjects

*SINGLE-stranded DNA, *HUMAN cell nuclei, *URACIL-DNA glycosylase, *B cells, *GENETIC disorders, *LYMPHOBLASTOID cell lines, *REPLICATION protein A, *ELECTROSPRAY ionization mass spectrometry

Abstract

Abstract: In human cell nuclei, UNG2 is the major uracil-DNA glycosylase initiating DNA base excision repair of uracil. In activated B cells it has an additional role in facilitating mutagenic processing of AID-induced uracil at Ig loci and UNG-deficient patients develop hyper-IgM syndrome characterized by impaired class-switch recombination and disturbed somatic hypermutation. How UNG2 is recruited to either error-free or mutagenic uracil processing remains obscure, but likely involves regulated interactions with other proteins. The UNG2 N-terminal domain contains binding motifs for both proliferating cell nuclear antigen (PCNA) and replication protein A (RPA), but the relative contribution of these interactions to genomic uracil processing is not understood. Interestingly, a heterozygous germline single-nucleotide variant leading to Arg88Cys (R88C) substitution in the RPA-interaction motif of UNG2 has been observed in humans, but with unknown functional relevance. Here we demonstrate that UNG2-R88C protein is expressed from the variant allele in a lymphoblastoid cell line derived from a heterozygous germ line carrier. Enzyme activity as well as localization in replication foci of UNG2-R88C was similar to that of WT. However, binding to RPA was essentially abolished by the R88C substitution, whereas binding to PCNA was unaffected. Moreover, we show that disruption of the PCNA-binding motif impaired recruitment of UNG2 to S-phase replication foci, demonstrating that PCNA is a major factor for recruitment of UNG2 to unperturbed replication forks. Conversely, in cells treated with hydroxyurea, RPA mediated recruitment of UNG2 to stalled replication forks independently of functional PCNA binding. Modulation of PCNA- versus RPA-binding may thus constitute a functional switch for UNG2 in cells subsequent to genotoxic stress and potentially also during the processing of uracil at the immunoglobulin locus in antigen-stimulated B cells. [Copyright &y& Elsevier]

Published

2012

20. The autoantigen Pso p27: A post-translational modification of SCCA molecules.

Author

Iversen, Ole-Jan, Lysvand, Hilde, and Hagen, Lars

Subjects

*PSORIASIS treatment, *AUTOIMMUNITY, *GENETIC translation, *SQUAMOUS cell carcinoma antigen, *IMMUNOLOGICAL tolerance, *MASS spectrometry, *SKIN diseases

Abstract

Pso p27 is a protein antigen expressed in psoriatic lesions and is shown to participate in complement activating immune complexes in the affected skin. The objective of the present study was sequencing of the Pso p27 protein in an approach to identify a ''Pso p27 gene''. The analyses showed that Pso p27 represents several proteins with homologies to various Squamous Cell Carcinoma Antigens (SCCAs). The unique N-terminal and C-terminal ends of Pso p27, however, differ from the terminal ends of the SCCA molecules and indicate posttranslational digestions of SCCA molecules with highly specific endoproteases. These structural variations may play crucial roles with respect to the immunogenicity of Pso p27 and the failure of immunological tolerance. [ABSTRACT FROM AUTHOR]

Published

2011

21. The rate of base excision repair of uracil is controlled by the initiating glycosylase

Author

Visnes, Torkild, Akbari, Mansour, Hagen, Lars, Slupphaug, Geir, and Krokan, Hans E.

Subjects

*DNA repair, *URACIL, *DNA replication, *CIRCULAR DNA, *CELL lines, *DNA polymerases

Abstract

Abstract: Uracil in DNA is repaired by base excision repair (BER) initiated by a DNA glycosylase, followed by strand incision, trimming of ends, gap filling and ligation. Uracil in DNA comes in two distinct forms; U:A pairs, typically resulting from replication errors, and mutagenic U:G mismatches, arising from cytosine deamination. To identify proteins critical to the rate of repair of these lesions, we quantified overall repair of U:A pairs, U:G mismatches and repair intermediates (abasic sites and nicked abasic sites) in vitro. For this purpose we used circular DNA substrates and nuclear extracts of eight human cell lines with wide variation in the content of BER proteins. We identified the initiating uracil–DNA glycosylase UNG2 as the major overall rate-limiting factor. UNG2 is apparently the sole glycosylase initiating BER of U:A pairs and generally initiated repair of almost 90% of the U:G mismatches. Surprisingly, TDG contributed at least as much as single-strand selective monofunctional uracil–DNA glycosylase 1 (SMUG1) to BER of U:G mismatches. Furthermore, in a cell line that expressed unusually high amounts of TDG, this glycosylase contributed to initiation of as much as ∼30% of U:G repair. Repair of U:G mismatches was generally faster than that of U:A pairs, which agrees with the known substrate preference of UNG-type glycosylases. Unexpectedly, repair of abasic sites opposite G was also generally faster than when opposite A, and this could not be explained by the properties of the purified APE1 protein. It may rather reflect differences in substrate recognition or repair by different complex(es). Lig III is apparently a minor rate-regulator for U:G repair. APE1, Pol β, Pol δ, PCNA, XRCC1 and Lig I did not seem to be rate-limiting for overall repair of any of the substrates. These results identify damaged base removal as the major rate-limiting step in BER of uracil in human cells. [Copyright &y& Elsevier]

Published

2008

22. Cancer-induced muscle atrophy is determined by intrinsic muscle oxidative capacity.

Author

Alves, Christiano R. R., Eichelberger, Eric J., das Neves, Willian, Ribeiro, Márcio A. C., Bechara, Luiz R. G., Voltarelli, Vanessa A., de Almeida, Ney R., Hagen, Lars, Sharma, Animesh, Ferreira, Julio C. B., Swoboda, Kathryn J., Slupphaug, Geir, and Brum, Patricia C.

Abstract

We tested the hypothesis that cancer cachexia progression would induce oxidative post-translational modifications (Ox-PTMs) associated with skeletal muscle wasting, with different responses in muscles with the prevalence of glycolytic and oxidative fibers. We used cysteine-specific isotopic coded affinity tags (OxICAT) and gel-free mass spectrometry analysis to investigate the cysteine Ox-PTMs profile in the proteome of both plantaris (glycolytic) and soleus (oxidative) muscles in tumor-bearing and control rats. Histological analysis revealed muscle atrophy in type II fibers in plantaris muscle, with no changes in plantaris type I fibers and no differences in both soleus type I and II fibers in tumor-bearing rats when compared to healthy controls. Tumor progression altered the Ox-PTMs profile in both plantaris and soleus. However, pathway analysis including the differentially oxidized proteins revealed tricarboxylic acid cycle and oxidative phosphorylation as main affected pathways in plantaris muscle from tumor-bearing rats, while the same analysis did not show main metabolic pathways affected in the soleus muscle. In addition, cancer progression affected several metabolic parameters such as ATP levels and markers of oxidative stress associated with muscle atrophy in plantaris muscle, but not in soleus. However, isolated soleus from tumor-bearing rats had a reduced force production capacity when compared to controls. These novel findings demonstrate that tumor-bearing rats have severe muscle atrophy exclusively in glycolytic fibers. Cancer progression is associated with cysteine Ox-PTMs in the skeletal muscle, but these modifications affect different pathways in a glycolytic muscle compared to an oxidative muscle, indicating that intrinsic muscle oxidative capacity determines the response to cancer cachectic effects. [ABSTRACT FROM AUTHOR]

Published

2021

23. Complex alternative splicing of human Endonuclease V mRNA, but evidence for only a single protein isoform.

Author

Berges, Natalia, Nawaz, Meh Sameen, Børresdatter Dahl, Tuva, Hagen, Lars, Bjørås, Magnar, Laerdahl, Jon K., and Alseth, Ingrun

Subjects

*MESSENGER RNA, *MASS analysis (Spectrometry), *GRANULE cells, *PROTEINS, *RNA splicing, *GENETIC regulation, *SPLICEOSOMES

Abstract

Endonuclease V (ENDOV) is a ribonuclease with affinity for inosine which is the deamination product of adenosine. The genomes of most organisms, including human, encode ENDOV homologs, yet knowledge about in vivo functions and gene regulation is sparse. To contribute in this field, we analyzed mRNA and protein expression of human ENDOV (hENDOV). Analyses of public sequence databases revealed numerous hENDOV transcript variants suggesting extensive alternative splicing. Many of the transcripts lacked one or more exons corresponding to conserved regions of the ENDOV core domain, suggesting that these transcripts do not encode for active proteins. Three complete transcripts were found with open reading frames encoding 282, 308 and 309 amino acids, respectively. Recombinant hENDOV 308 and hENDOV 309 share the same cleavage activity as hENDOV 282 which is the variant that has been used in previous studies of hENDOV. However, hENDOV 309 binds inosine-containing RNA with stronger affinity than the other isoforms. Overexpressed GFP-fused isoforms were found in cytoplasm, nucleoli and arsenite induced stress granules in human cells as previously reported for hENDOV 282. RT-qPCR analysis of the 3'-termini showed that hENDOV 308 and hENDOV 309 transcripts are more abundant than hENDOV 282 transcripts in immortalized cell lines, but not in primary cells, suggesting that cells regulate hENDOV mRNA expression. In spite of the presence of all three full-length transcripts, mass spectrometry analyses identified peptides corresponding to the hENDOV 309 isoform only. This result suggests that further studies of human ENDOV should rather encompass the hENDOV 309 isoform. [ABSTRACT FROM AUTHOR]

Published

2019

24. A robust, sensitive assay for genomic uracil determination by LC/MS/MS reveals lower levels than previously reported.

Author

Galashevskaya, Anastasia, Sarno, Antonio, Vågbø, Cathrine B., Aas, Per A., Hagen, Lars, Slupphaug, Geir, and Krokan, Hans E.

Subjects

*BIOLOGICAL assay, *URACIL, *NUCLEOTIDES, *CYTOSINE deaminase, *DNA repair

Abstract

Highlights: [•] We analyzed error sources in genomic uracil assays. [•] We present a method that ameliorates possible technical shortcomings. [•] Nucleotides co-eluted in DNA isolation step, causing overestimation. [•] In vitro cytosine deamination to uracil caused overestimation. [•] We report 400–600 uracils per genome in repair-proficient cells. [ABSTRACT FROM AUTHOR]

Published

2013

25. Photodynamic therapy with hexyl aminolevulinate induces carbonylation, posttranslational modifications and changed expression of proteins in cell survival and cell death pathways.

Author

Baglo, Yan, Sousa, Mirta M. L., Slupphaug, Geir, Hagen, Lars, Håvåg, Sissel, Helander, Linda, Zub, Kamila A., Krokan, Hans E., and Gederaas, Odrun A.

Subjects

*PHOTOCHEMOTHERAPY, *TETRAPYRROLES, *APOPTOSIS, *NECROSIS, *CANCER cells, *BLUE light, *MASS spectrometry, *OXIDATIVE stress

Abstract

Photodynamic therapy (PDT) using blue light and the potent precursor for protoporphyrin IX, hexyl aminolevulinate (HAL), has been shown to induce apoptosis and necrosis in cancer cells, but the mechanism remains obscure. In the present study, we examined protein carbonylation, expression levels and post-translational modifications in rat bladder cells (AY-27) after PDT with HAL. Altered levels of expression and/or post-translational modifications induced by PDT were observed for numerous proteins, including proteins required for cell mobility, energy supply, cell survival and cell death pathways, by using two-dimensional difference gel electrophoresis (2D-DIGE) and mass spectrometry (MS). Moreover, 10 carbonylated proteins associated with cytoskeleton, transport, oxidative stress response, protein biosynthesis and stability, and DNA repair were identified using immunoprecipitation, two-dimensional gel electrophoresis and MS. Overall, the results indicate that HAL-mediated PDT triggers a complex cellular response involving several biological pathways. Our findings may account for the elucidation of mechanisms modulated by PDT, paving the way to improve clinic PDT-efficacy. [ABSTRACT FROM AUTHOR]

Published

2011

26. Identification of a Novel in Vivo Virus-targeted Phosphorylation Site in Interferon Regulatory Factor-3 (IRF3).

Author

Bergstroem, Bjarte, Johnsen, Ingvild B., Nguyen, Thuy Thanh, Hagen, Lars, Slupphaug, Geir, Thommesen, Liv, and Anthonsen, Marit W.

Subjects

*PHOSPHORYLATION, *INTERFERONS, *ANTIVIRAL agents, *IMMUNITY, *SENDAI virus, *MUTAGENESIS

Abstract

The transcription factor interferon regulatory factor-3 (IRF3) regulates expression of type I interferon-β and plays an important role in antiviral immunity. Despite the biological importance of IRF3, its in vivo phosphorylation pattern has not been reported. In this study, we have identified residues in IRF3 that are phosphorylated in vivo after infection with Sendai virus. We found that Sendai virus induced phosphorylation of the C-terminal residues Thr390 and Ser396, in addition to either Ser385 or Ser386. Moreover, Ser173 and Ser175 were constitutively phosphorylated. Ser396 has previously been suggested to be the major target of the IRF3-activating kinase TBK1 (TANK-binding kinase- 1), whereas Thr390 has not previously been implicated in IRF3 regulation. Mutagenesis studies indicated that phosphorylation of Thr390 promotes Ser396 phosphorylation and binding to the coactivator cAMP-response element-binding protein. Taken together, our results show that IRF3 is subject to multiple interdependent phosphorylations, and we identify Thr390 as a novel in vivo phosphorylation site that modulates the phosphorylation status of TBK1-targeted Ser396. [ABSTRACT FROM AUTHOR]

Published

2010

27. Human AlkB Homolog 1 Is a Mitochondrial Protein That Demethylates 3-Methylcytosine in DNA and RNA.

Author

Westbye, Marianne Pedersen, Feyzi, Emadoldin, Aas, Per Arne, Vågbø, Cathrine Broberg, Taistad, Vivi Anita, Kavli, Bodil, Hagen, Lars, Sundheim, Ottar, Akbari, Mansour, Liabakk, Nina-Beate, Slupphaug, Geir, Otterlei, Marit, and Krokan, Hans Einar

Subjects

*PROTEINS, *ESCHERICHIA coli, *DNA, *NUCLEIC acids, *NUCLEOTIDES

Abstract

The Escherichia coli AlkB protein and human homologs hABH2 and hABH3 are 2-oxoglutarate (2OG)/Fe(II)-dependent DNA/RNA demethylases that repair 1-methyladenine and 3-methylcytosine residues. Surprisingly, hABH1, which displays the strongest homology to AlkB, failed to show repair activity in two independent studies. Here, we show that hABH1 is a mitochondrial protein, as demonstrated using fluorescent fusion protein expression, immunocytochemistry, and Western blot analysis. A fraction is apparently nuclear and this fraction increases strongly if the fluorescent tag is placed at the N-terminal end of the protein, thus interfering with mitochondrial targeting. Molecular modeling of hABH1 based upon the sequence and known structures of AlkB and hABH3 suggested an active site almost identical to these enzymes. hABH1 decarboxylates 2OG in the absence of a prime substrate, and the activity is stimulated by methylated nucleotides. Employing three different methods we demonstrate that hABH1 demethylates 3-methyl-cytosine in single-stranded DNA and RNA in vitro. Site-specific mutagenesis confirmed that the putative Fe(II) and 2OG binding residues are essential for activity. In conclusion, hABH1 is a functional mitochondrial AlkB homolog that repairs 3-methyl-cytosine in single-stranded DNA and RNA. [ABSTRACT FROM AUTHOR]

Published

2008

28. Hexaene Derivatives of Nystatin Produced as a Result of an Induced Rearrangement within the nysC Polyketide Synthase Gene in S. noursei ATCC 11455

Author

Brautaset, Trygve, Bruheim, Per, Sletta, Håvard, Hagen, Lars, Ellingsen, Trond E., Strøm, Arne R., Valla, Svein, and Zotchev, Sergey B.

Subjects

*NYSTATIN, *POLYENE antibiotics

Abstract

Genetic manipulation of the polyketide synthase (PKS) gene nysC involved in the biosynthesis of the tetraene antifungal antibiotic nystatin yielded a recombinant strain producing hexaene nystatin derivatives. Analysis of one such compound, S48HX, by LC-MS/MS suggested that it comprises a 36-membered macrolactone ring completely decorated by the post-PKS modification enzymes. Further characterization by bioassay has shown that S48HX exhibits antifungal activity. Genetic analysis of the hexaene-producing mutant revealed an in-frame deletion within the nysC gene via recombination between two homologous ketoreductase domain-encoding sequences. Apparently, this event resulted in the elimination of one complete module from NysC PKS, subsequently leading to the production of the nystatin derivative with a contracted macrolactone ring. These results represent the first example of manipulation of a PKS gene for the biosynthesis of a polyene antibiotic. [Copyright &y& Elsevier]

Published

2002

29. Potential Antiviral Options against SARS-CoV-2 Infection.

Author

Ianevski, Aleksandr, Yao, Rouan, Fenstad, Mona Høysæter, Biza, Svetlana, Zusinaite, Eva, Reisberg, Tuuli, Lysvand, Hilde, Løseth, Kirsti, Landsem, Veslemøy Malm, Malmring, Janne Fossum, Oksenych, Valentyn, Erlandsen, Sten Even, Aas, Per Arne, Hagen, Lars, Pettersen, Caroline H., Tenson, Tanel, Afset, Jan Egil, Nordbø, Svein Arne, Bjørås, Magnar, and Kainov, Denis E.

Abstract

As of June 2020, the number of people infected with severe acute respiratory coronavirus 2 (SARS-CoV-2) continues to skyrocket, with more than 6.7 million cases worldwide. Both the World Health Organization (WHO) and United Nations (UN) has highlighted the need for better control of SARS-CoV-2 infections. However, developing novel virus-specific vaccines, monoclonal antibodies and antiviral drugs against SARS-CoV-2 can be time-consuming and costly. Convalescent sera and safe-in-man broad-spectrum antivirals (BSAAs) are readily available treatment options. Here, we developed a neutralization assay using SARS-CoV-2 strain and Vero-E6 cells. We identified the most potent sera from recovered patients for the treatment of SARS-CoV-2-infected patients. We also screened 136 safe-in-man broad-spectrum antivirals against the SARS-CoV-2 infection in Vero-E6 cells and identified nelfinavir, salinomycin, amodiaquine, obatoclax, emetine and homoharringtonine. We found that a combination of orally available virus-directed nelfinavir and host-directed amodiaquine exhibited the highest synergy. Finally, we developed a website to disseminate the knowledge on available and emerging treatments of COVID-19. [ABSTRACT FROM AUTHOR]

Published

2020

30. Differential regulation of cysteine oxidative post-translational modifications in high and low aerobic capacity.

Author

Souza, Rodrigo W. A., Alves, Christiano R. R., Medeiros, Alessandra, Rolim, Natale, Silva, Gustavo J. J., Moreira, José B. N., Alves, Marcia N., Wohlwend, Martin, Gebriel, Mohammed, Hagen, Lars, Sharma, Animesh, Koch, Lauren G., Britton, Steven L., Slupphaug, Geir, Wisløff, Ulrik, and Brum, Patricia C.

Abstract

Given the association between high aerobic capacity and the prevention of metabolic diseases, elucidating the mechanisms by which high aerobic capacity regulates whole-body metabolic homeostasis is a major research challenge. Oxidative post-translational modifications (Ox-PTMs) of proteins can regulate cellular homeostasis in skeletal and cardiac muscles, but the relationship between Ox-PTMs and intrinsic components of oxidative energy metabolism is still unclear. Here, we evaluated the Ox-PTM profile in cardiac and skeletal muscles of rats bred for low (LCR) and high (HCR) intrinsic aerobic capacity. Redox proteomics screening revealed different cysteine (Cys) Ox-PTM profile between HCR and LCR rats. HCR showed a higher number of oxidized Cys residues in skeletal muscle compared to LCR, while the opposite was observed in the heart. Most proteins with differentially oxidized Cys residues in the skeletal muscle are important regulators of oxidative metabolism. The most oxidized protein in the skeletal muscle of HCR rats was malate dehydrogenase (MDH1). HCR showed higher MDH1 activity compared to LCR in skeletal, but not cardiac muscle. These novel findings indicate a clear association between Cys Ox-PTMs and aerobic capacity, leading to novel insights into the role of Ox-PTMs as an essential signal to maintain metabolic homeostasis. [ABSTRACT FROM AUTHOR]

Published

2018