Your search keyword '"Stokke, Trond"' showing total 5 results

1. Detection and Mapping of Amplified DNA Sequences in Breast Cancer by Comparative Genomic Hybridization

Author

Kallioniemi, Anne, Kallioniemi, Olli-Pekka, Piper, Jim, Tanner, Minna, Stokke, Trond, Chen, Ling, Smith, Helene S., Pinkel, Dan, Gray, Joe W., and Waldman, Frederic M.

Published

1994

2. Hypoxia-independent gene expression signature associated with radiosensitisation of prostate cancer cell lines by histone deacetylase inhibition.

Author

Jonsson, Marte, Ragnum, Harald Bull, Julin, Cathinka Halle, Yeramian, Andree, Clancy, Trevor, Frikstad, Kari-Anne Myrum, Seierstad, Therese, Stokke, Trond, Matias-Guiu, Xavier, Ree, Anne Hansen, Flatmark, Kjersti, and Lyng, Heidi

Subjects

ADENOCARCINOMA, ANTINEOPLASTIC agents, CELL cycle, CELL lines, CELL physiology, CHROMOSOMES, DNA, ENZYME inhibitors, GENES, GENETIC techniques, ONCOGENES, PROSTATE tumors, PROTEINS, RADIATION, RADIATION-sensitizing agents, HYDROXY acids, GENE expression profiling, COLONY-forming units assay, CHEMICAL inhibitors, PHARMACODYNAMICS

Abstract

Background: Histone deacetylase inhibitors (HDACis) like vorinostat are promising radiosensitisers in prostate cancer, but their effect under hypoxia is not known. We investigated gene expression associated with radiosensitisation of normoxic and hypoxic prostate cancer cells by vorinostat.Methods: Cells were exposed to vorinostat under normoxia or hypoxia and subjected to gene expression profiling before irradiation and clonogenic survival analysis.Results: Pretreatment with vorinostat led to radiosensitisation of the intrinsically radioresistant DU 145 cells, but not the radiosensitive PC-3 and 22Rv1 cells, and was independent of hypoxia status. Knockdown experiments showed that the sensitisation was not caused by repression of hypoxia-inducible factor HIF1 or tumour protein TP53. Global deregulation of DNA repair and chromatin organisation genes was associated with radiosensitisation under both normoxia and hypoxia. A radiosensitisation signature with expression changes of 56 genes was generated and valid for both conditions. For eight signature genes, baseline expression also correlated with sensitisation, showing potential as pretreatment biomarker. The hypoxia independence of the signature was confirmed in a clinical data set.Conclusions: Pretreatment with HDACi may overcome radioresistance of hypoxic prostate tumours by similar mechanisms as under normoxia. We propose a gene signature to predict radiosensitising effects independent of hypoxia status. [ABSTRACT FROM AUTHOR]

Published

2016

3. Cell-Cycle Analysis of Fission Yeast Cells by Flow Cytometry.

Author

Knutsen, Jon Halvor Jonsrud, Rein, Idun Dale, Rothe, Christiane, Stokke, Trond, Grallert, Beáta, and Boye, Erik

Subjects

CELL nuclei, EDIBLE fungi, YEAST-free diet, SCHIZOSACCHAROMYCES, DEOXYRIBOSE, GENES, CELL division, CELL cycle, FUNGAL cell nuclei

Abstract

The cell cycle of the fission yeast, Schizosaccharomyces pombe, does not easily lend itself to analysis by flow cytometry, mainly because cells in G1 and G2 phase contain the same amount of DNA. This occurs because fission yeast cells under standard growth conditions do not complete cytokinesis until after G1 phase. We have devised a flow cytometric method exploiting the fact that cells in G1 phase contain two nuclei, whereas cells in G2 are mononuclear. Measurements of the width as well as the total area of the DNA-associated fluorescence signal allows the discrimination between cells in G1 and in G2 phase and the cellcycle progression of fission yeast can be followed in detail by flow cytometry. Furthermore, we show how this method can be used to monitor the timing of cell entry into anaphase. Fission yeast cells tend to form multimers, which represents another problem of flow cytometry-based cell-cycle analysis. Here we present a method employing light-scatter measurements to enable the exclusion of cell doublets, thereby further improving the analysis of fission yeast cells by flow cytometry. [ABSTRACT FROM AUTHOR]

Published

2011

4. Gene expressions and copy numbers associated with metastatic phenotypes of uterine cervical cancer.

Author

Lyng, Heidi, Brovig, Runar S, Svendsrud, Debbie H, Holm, Ruth, Kaalhus, Olav, Knutstad, Kjetil, Oksefjell, Halldis, Sundfor, Kolbein, Kristensen, Gunnar B, and Stokke, Trond

Subjects

GENE expression, CERVICAL cancer, UTERINE cancer, BIOMARKERS, METASTASIS, GENES, TUMORS

Abstract

Background: A better understanding of the development of metastatic disease and the identification of molecular markers for cancer spread would be useful for the design of improved treatment strategies. This study was conducted to identify gene expressions associated with metastatic phenotypes of locally advanced cervical carcinomas and investigate whether gains or losses of these genes could play a role in regulation of the transcripts. Gene expressions and copy number changes were determined in primary tumors from 29 patients with and 19 without diagnosed lymph node metastases by use of cDNA and genomic microarray techniques, respectively. Results: Thirty-one genes that differed in expression between the node positive and negative tumors were identified. Expressions of eight of these genes (MRPL11, CKS2, PDK2, MRPS23, MSN, TBX3, KLF3, LSM3) correlated with progression free survival in univariate analysis and were therefore more strongly associated with metastatic phenotypes than the others. Immunohistochemistry data of CKS2 and MSN showed similar relationships to survival. The prognostic genes clustered into two groups, suggesting two major metastatic phenotypes. One group was associated with rapid proliferation, oxidative phosphorylation, invasiveness, and tumor size (MRPS23, MRPL11, CKS2, LSM3, TBX3, MSN) and another with hypoxia tolerance, anaerobic metabolism, and high lactate content (PDK2, KLF3). Multivariate analysis identified tumor volume and PDK2 expression as independent prognostic variables. Gene copy number changes of the differentially expressed genes were not frequent, but correlated with the expression level for seven genes, including MRPS23, MSN, and LSM3. Conclusion: Gene expressions associated with known metastatic phenotypes of cervical cancers were identified. Our findings may indicate molecular mechanisms underlying development of these phenotypes and be useful as markers of cancer spread. Gains or losses of the genes may be involved in development of the metastatic phenotypes in some cases, but other mechanisms for transcriptional regulation are probably important in the majority of tumors. [ABSTRACT FROM AUTHOR]

Published

2006

5. Bystander effects in UV-induced genomic instability: Antioxidants inhibit delayed mutagenesis induced by ultraviolet A and B radiation.

Author

Dahle, Jostein, Kvam, Egil, and Stokke, Trond

Subjects

ULTRAVIOLET radiation, GENES, CANCER, DNA, ANTIOXIDANTS, GLUTATHIONE

Abstract

Background: Genomic instability is characteristic of many types of human cancer. Recently, we reported that ultraviolet radiation induced elevated mutation rates and chromosomal instability for many cell generations after ultraviolet irradiation. The increased mutation rates of unstable cells may allow them to accumulate aberrations that subsequently lead to cancer. Ultraviolet A radiation, which primarily acts by oxidative stress, and ultraviolet B radiation, which initially acts by absorption in DNA and direct damage to DNA, both produced genomically unstable cell clones. In this study, we have determined the effect of antioxidants on induction of delayed mutations by ultraviolet radiation. Delayed mutations are indicative of genomic instability. Methods: Delayed mutations in the hypoxanthine phosphoribosyl transferase (hprt) gene were detected by incubating the cells in medium selectively killing hprt mutants for 8 days after irradiation, followed by a 5 day period in normal medium before determining mutation frequencies. Results: The UVB-induced delayed hprt mutations were strongly inhibited by the antioxidants catalase, reduced glutathione and superoxide dismutase, while only reduced glutathione had a significant effect on UVA-induced delayed mutations. Treatment with antioxidants had only minor effects on early mutation frequenies, except that reduced glutathione decreased the UVB-induced early mutation frequency by 24 %. Incubation with reduced glutathione was shown to significantly increase the intracellular amount of reduced glutathione. Conclusion: The strong effects of these antioxidants indicate that genomic instability, which is induced by the fundamentally different ultraviolet A and ultraviolet B radiation, is mediated by reactive oxygen species, including hydrogen peroxide and downstream products. However, cells take up neither catalase nor SOD, while incubation with glutathione resulted in increased intracellular levels of glutathione. Previously, we have shown that ultraviolet induced delayed mutations may be induced via a bystander effect and that this effect is 5-fold higher for UVB radiation than for UVA radiation. Therefore, we propose that the antioxidants inhibit an ultraviolet radiation-induced bystander effect and that the effect is transmitted via the medium and via an internal transfer between cells, like gap junctional intercellular communication, for UVB radiation and only by the latter mechanism for UVA radiation. [ABSTRACT FROM AUTHOR]

Published

2005