5 results on '"Paula M. De Angelis"'
Search Results
2. Reduced hTERT protein levels are associated with DNA aneuploidy in the colonic mucosa of patients suffering from longstanding ulcerative colitis
- Author
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Mariann Friis-Ottessen, Aasa R. Schjølberg, Paula M. De Angelis, Solveig Norheim Andersen, and Ole Petter F. Clausen
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Adult ,Male ,Colectomies ,Pathology ,medicine.medical_specialty ,Adolescent ,Colorectal cancer ,Colon ,Biology ,telomerase ,Gastroenterology ,Young Adult ,Intestinal mucosa ,dysplasia ,Internal medicine ,Genetics ,medicine ,Humans ,Telomerase reverse transcriptase ,Colitis ,Intestinal Mucosa ,Child ,ulcerative colitis ,Cancer ,General Medicine ,Articles ,Middle Aged ,medicine.disease ,Aneuploidy ,Ulcerative colitis ,Immunohistochemistry ,Dysplasia ,Colonic Neoplasms ,Colitis, Ulcerative ,Female - Abstract
Longstanding ulcerative colitis (UC) is a disease of chronic inflammation of the colon. It is associated with the development of colorectal cancer through a multistep process including increasing degrees of dysplasia and DNA-ploidy changes. However, not all UC patients will develop these characteristics even during lifelong disease, and patients may therefore be divided into progressors who develop dysplasia or cancer, and non-progressors who do not exhibit such changes. In the present study, the amount of hTERT, the catalytic subunit of the enzyme telomerase, was estimated by using peroxidase immunohistochemistry (IHC) in a set of progressor and non-progressor UC colectomies. The protein levels in the colonic mucosa of the progressors and non-progressors were compared, and further comparisons between different categories of dysplastic development and to DNA-ploidy status within the progressors were made. Levels of hTERT were elevated in the colonic mucosa of the progressors and non-progressors when compared to non-UC control samples, but no difference was observed between the hTERT levels in the mucosa of progressors and non-progressors. The levels of hTERT associated with levels of Ki67 to a significant degree within the non-progressors. hTERT expression in lesions with DNA-aneuploidy were decreased as compared to diploid lesions, when stratified for different classes of colonic morphology. Our results indicate an association between hTERT protein expression and aneuploidy in UC-progressor colons, and also a possible protective mechanism in the association between hTERT and Ki67, against development of malignant features within the mucosa of a UC-colon.
- Published
- 2014
3. Telomere shortening correlates to dysplasia but not to DNA aneuploidy in longstanding ulcerative colitis
- Author
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Steen Kølvraa, Solveig Norheim-Andersen, Ole Petter F. Clausen, Mariann Friis-Ottessen, Laila Bendix, and Paula M. De Angelis
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Male ,medicine.medical_specialty ,Dysplasia ,Aneuploidy ,Adenocarcinoma ,Inflammatory bowel disease ,Gastroenterology ,Mean telomere length ,Chromosome instability ,Internal medicine ,Chromosomal Instability ,medicine ,Humans ,Intestinal Mucosa ,Ultra-short telomeres ,Telomere Shortening ,DNA-aneuploidy ,business.industry ,Cancer ,General Medicine ,DNA ,medicine.disease ,Ulcerative colitis ,Diploidy ,Telomere ,Cell Transformation, Neoplastic ,Colonic Neoplasms ,Cancer research ,Disease Progression ,Colitis, Ulcerative ,Female ,business ,Research Article - Abstract
Background Ulcerative colitis (UC) is a chronic, inflammatory bowel disease which may lead to dysplasia and adenocarcinoma in patients when long-lasting. Short telomeres have been reported in mucosal cells of UC patients. Telomeres are repetitive base sequences capping the ends of linear chromosomes, and protect them from erosion and subsequent wrongful recombination and end-to-end joining during cell division. Short telomeres are associated with the development of chromosomal instability and aneuploidy, the latter being risk factors for development of dysplasia and cancer. Specifically, the abrupt shortening of one or more telomeres to a critical length, rather than bulk shortening of telomeres, seems to be associated with chromosomal instability. Methods We investigated possible associations between dysplasia, aneuploidy and telomere status in a total of eight lesions from each of ten progressors and four nonprogressors suffering from longstanding UC. We have analyzed mean telomere length by qPCR, as well as the amount of ultra-short telomeres by the Universal STELA method. Results An increased amount of ultra-short telomeres, as well as general shortening of mean telomere length are significantly associated with dysplasia in longstanding UC. Furthermore, levels of ultra-short telomeres are also significantly increased in progressors (colons harbouring cancer/dysplasia and/or aneuploidy) compared to nonprogressors (without cancer/dysplasia/aneuploidy), whereas general shortening of telomeres did not show such associations. Conclusions Our data suggest that ultra-short telomeres may be more tightly linked to colorectal carcinogenesis through development of dysplasia in UC than general telomere shortening. Telomere status was not seen to associate with DNA aneuploidy.
- Published
- 2014
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4. Cellular response to 5-fluorouracil (5-FU) in 5-FU-resistant colon cancer cell lines during treatment and recovery
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D.H. Svendsrud, Katherine L. Kravik, Trond Stokke, and Paula M. De Angelis
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Cancer Research ,Antimetabolites, Antineoplastic ,Time Factors ,DNA damage ,Cell ,Mitosis ,Apoptosis ,lcsh:RC254-282 ,Cell Line, Tumor ,medicine ,Humans ,Oligonucleotide Array Sequence Analysis ,biology ,Cell growth ,Research ,Cell Cycle ,Cell cycle ,lcsh:Neoplasms. Tumors. Oncology. Including cancer and carcinogens ,Molecular biology ,Proliferating cell nuclear antigen ,Cell biology ,Gene Expression Regulation, Neoplastic ,medicine.anatomical_structure ,Oncology ,Cell culture ,Colonic Neoplasms ,biology.protein ,Molecular Medicine ,Fluorouracil - Abstract
Background Treatment of cells with the anti-cancer drug 5-fluorouracil (5-FU) causes DNA damage, which in turn affects cell proliferation and survival. Two stable wild-type TP53 5-FU-resistant cell lines, ContinB and ContinD, generated from the HCT116 colon cancer cell line, demonstrate moderate and strong resistance to 5-FU, respectively, markedly-reduced levels of 5-FU-induced apoptosis, and alterations in expression levels of a number of key cell cycle- and apoptosis-regulatory genes as a result of resistance development. The aim of the present study was to determine potential differential responses to 8 and 24-hour 5-FU treatment in these resistant cell lines. We assessed levels of 5-FU uptake into DNA, cell cycle effects and apoptosis induction throughout treatment and recovery periods for each cell line, and alterations in expression levels of DNA damage response-, cell cycle- and apoptosis-regulatory genes in response to short-term drug exposure. Results 5-FU treatment for 24 hours resulted in S phase arrests, p53 accumulation, up-regulation of p53-target genes on DNA damage response (ATF3, GADD34, GADD45A, PCNA), cell cycle-regulatory (CDKN1A), and apoptosis-regulatory pathways (FAS), and apoptosis induction in the parental and resistant cell lines. Levels of 5-FU incorporation into DNA were similar for the cell lines. The pattern of cell cycle progression during recovery demonstrated consistently that the 5-FU-resistant cell lines had the smallest S phase fractions and the largest G2(/M) fractions. The strongly 5-FU-resistant ContinD cell line had the smallest S phase arrests, the lowest CDKN1A levels, and the lowest levels of 5-FU-induced apoptosis throughout the treatment and recovery periods, and the fastest recovery of exponential growth (10 days) compared to the other two cell lines. The moderately 5-FU-resistant ContinB cell line had comparatively lower apoptotic levels than the parental cells during treatment and recovery periods and a recovery time of 22 days. Mitotic activity ceased in response to drug treatment for all cell lines, consistent with down-regulation of mitosis-regulatory genes. Differential expression in response to 5-FU treatment was demonstrated for genes involved in regulation of nucleotide binding/metabolism (ATAD2, GNL2, GNL3, MATR3), amino acid metabolism (AHCY, GSS, IVD, OAT), cytoskeleton organization (KRT7, KRT8, KRT19, MAST1), transport (MTCH1, NCBP1, SNAPAP, VPS52), and oxygen metabolism (COX5A, COX7C). Conclusion Our gene expression data suggest that altered regulation of nucleotide metabolism, amino acid metabolism, cytoskeleton organization, transport, and oxygen metabolism may underlie the differential resistance to 5-FU seen in these cell lines. The contributory roles to 5-FU resistance of some of the affected genes on these pathways will be assessed in future studies.
- Published
- 2006
5. A pool of peptides extracted from wheat bud chromatin inhibits tumor cell growth by causing defective DNA synthesis
- Author
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Loretta Mancinelli, Matteo Marchesini, Lanfranco Barberini, Cristiano Marinelli, Francesco Grignani, T. Secca, Paula M. De Angelis, and Francesco Mancini
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Chromatin peptides ,DNA damage ,Biology ,Biochemistry ,HeLa ,chemistry.chemical_compound ,H2AX ,Molecular Biology ,Genetics ,dna-damage ,Peptides ,cell cycle ,DNA synthesis ,Research ,Cell Biology ,G2-M DNA damage checkpoint ,biology.organism_classification ,Chromatin ,Cell biology ,G2 checkpoint ,chemistry ,Apoptosis ,BrdUrd comet ,Growth inhibition ,DNA - Abstract
Background We previously reported that a pool of low molecular weight peptides can be extracted by alkali treatment of DNA preparations obtained from prokaryotic and eukaryotic cells after intensive deproteinization. This class of peptides, isolated from wheat bud chromatin, induces growth inhibition, DNA damage, G2 checkpoint activation and apoptosis in HeLa cells. In this work we studied their mechanism of action by investigating their ability to interfere with DNA synthesis. Methods BrdUrd comet assays were used to detect DNA replication defects during S phase. DNA synthesis, cell proliferation, cell cycle progression and DNA damage response pathway activation were assessed using 3H-thymidine incorporation, DNA flow cytometry and Western blotting, respectively. Results BrdUrd labelling close to DNA strand discontinuities (comet tails) detects the number of active replicons. This number was significantly higher in treated cells (compared to controls) from entry until mid S phase, but markedly lower in late S phase, indicating the occurrence of defective DNA synthesis. In mid S phase the treated cells showed less 3H-thymidine incorporation with respect to the controls, which supports an early arrest of DNA synthesis. DNA damage response activation was also shown in both p53-defective HeLa cells and p53-proficient U2OS cells by the detection of the phosphorylated form of H2AX after peptide treatment. These events were accompanied in both cell lines by an increase in p21 levels and, in U2OS cells, of phospho-p53 (Ser15) levels. At 24 h of recovery after peptide treatment the cell cycle phase distribution was similar to that seen in controls and CDK1 kinase accumulation was not detected. Conclusion The data reported here show that the antiproliferative effect exhibited by these chromatin peptides results from their ability to induce genomic stress during DNA synthesis. This effect seems to be S-phase specific since surviving cells are able to progress through their normal cell cycle when the peptide fraction is removed from the culture medium. It is likely that the subsequent apoptosis is a consequence of the failed attempt of the tumour cells to repair the DNA damage induced by the peptides.
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