Tumor Genome Wide DNA Alterations Assessed by Array CGH in Patients with Poor and Excellent Survival following Operation for Colorectal Cancer

Tumor Genome Wide DNA Alterations Assessed by Array CGH in Patients with Poor and Excellent Survival following Operation for Colorectal Cancer

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Genome wide DNA alterations were evaluated by array CGH in addition to RNA expression profiling in colorectal cancer from patients with excellent and poor survival following primary operations. DNA was used for CGH in BAC and cDNA arrays. Global RNA expression was determined by 44K arrays. DNA and R...

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Main Authors: Kristina K. Lagerstedt, Johan Staaf, Göran Jönsson, Elisabeth Hansson, Christina Lönnroth, Ulf Kressner, Lars Lindström, Svante Nordgren, Åke Borg, Kent Lundholm
Format: Article
Language:English
Published: SAGE Publishing 2007-01-01
Series:Cancer Informatics
Online Access:https://doi.org/10.1177/117693510700300014
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spelling doaj-d11692d247aa4a05a0a16a0dc2f60a8e2020-11-25T03:16:58ZengSAGE PublishingCancer Informatics1176-93512007-01-01310.1177/117693510700300014Tumor Genome Wide DNA Alterations Assessed by Array CGH in Patients with Poor and Excellent Survival following Operation for Colorectal CancerKristina K. Lagerstedt0Johan Staaf1Göran Jönsson2Elisabeth Hansson3Christina Lönnroth4Ulf Kressner5Lars Lindström6Svante Nordgren7Åke Borg8Kent Lundholm9Department of Surgery, Surgical Metabolic Research Laboratory at Lundberg Lab. for Cancer Research, Sahlgrenska University Hospital, Göteborg University, SE 413 45 Göteborg, Sweden.Department of Oncology, University Hospital, Lund, Sweden.Department of Oncology, University Hospital, Lund, Sweden.Department of Surgery, Uddevalla Hospital, SE 451 80 Uddevalla, Sweden.Department of Surgery, Surgical Metabolic Research Laboratory at Lundberg Lab. for Cancer Research, Sahlgrenska University Hospital, Göteborg University, SE 413 45 Göteborg, Sweden.Department of Surgery, Uddevalla Hospital, SE 451 80 Uddevalla, Sweden.Department of Surgery, Surgical Metabolic Research Laboratory at Lundberg Lab. for Cancer Research, Sahlgrenska University Hospital, Göteborg University, SE 413 45 Göteborg, Sweden.Department of Surgery, Surgical Metabolic Research Laboratory at Lundberg Lab. for Cancer Research, Sahlgrenska University Hospital, Göteborg University, SE 413 45 Göteborg, Sweden.Department of Oncology, University Hospital, Lund, Sweden.Department of Surgery, Surgical Metabolic Research Laboratory at Lundberg Lab. for Cancer Research, Sahlgrenska University Hospital, Göteborg University, SE 413 45 Göteborg, Sweden.Genome wide DNA alterations were evaluated by array CGH in addition to RNA expression profiling in colorectal cancer from patients with excellent and poor survival following primary operations. DNA was used for CGH in BAC and cDNA arrays. Global RNA expression was determined by 44K arrays. DNA and RNA from tumor and normal colon were used from cancer patients grouped according to death, survival or Dukes A, B, C and D tumor stage. Confirmed DNA alterations in all Dukes A – D were judged relevant for carcinogenesis, while changes in Dukes C and D only were regarded relevant for tumor progression. Copy number gain was more common than loss in tumor tissue (p < 0.01). Major tumor DNA alterations occurred in chromosome 8, 13, 18 and 20, where short survival included gain in 8q and loss in 8p. Copy number gains related to tumor progression were most common on chromosome 7, 8, 19, 20, while corresponding major losses appeared in chromosome 8. Losses at chromosome 18 occurred in all Dukes stages. Normal colon tissue from cancer patients displayed gains in chromosome 19 and 20. Mathematical Vector analysis implied a number of BAC-clones in tumor DNA with genes of potential importance for death or survival. The genomic variation in colorectal cancer cells is tremendous and emphasizes that BAC array CGH is presently more powerful than available statistical models to discriminate DNA sequence information related to outcome. Present results suggest that a majority of DNA alterations observed in colorectal cancer are secondary to tumor progression. Therefore, it would require an immense work to distinguish primary from secondary DNA alterations behind colorectal cancer.https://doi.org/10.1177/117693510700300014
collection DOAJ
language English
format Article
sources DOAJ
author Kristina K. Lagerstedt
Johan Staaf
Göran Jönsson
Elisabeth Hansson
Christina Lönnroth
Ulf Kressner
Lars Lindström
Svante Nordgren
Åke Borg
Kent Lundholm
spellingShingle Kristina K. Lagerstedt
Johan Staaf
Göran Jönsson
Elisabeth Hansson
Christina Lönnroth
Ulf Kressner
Lars Lindström
Svante Nordgren
Åke Borg
Kent Lundholm
Tumor Genome Wide DNA Alterations Assessed by Array CGH in Patients with Poor and Excellent Survival following Operation for Colorectal Cancer
Cancer Informatics
author_facet Kristina K. Lagerstedt
Johan Staaf
Göran Jönsson
Elisabeth Hansson
Christina Lönnroth
Ulf Kressner
Lars Lindström
Svante Nordgren
Åke Borg
Kent Lundholm
author_sort Kristina K. Lagerstedt
title Tumor Genome Wide DNA Alterations Assessed by Array CGH in Patients with Poor and Excellent Survival following Operation for Colorectal Cancer
title_short Tumor Genome Wide DNA Alterations Assessed by Array CGH in Patients with Poor and Excellent Survival following Operation for Colorectal Cancer
title_full Tumor Genome Wide DNA Alterations Assessed by Array CGH in Patients with Poor and Excellent Survival following Operation for Colorectal Cancer
title_fullStr Tumor Genome Wide DNA Alterations Assessed by Array CGH in Patients with Poor and Excellent Survival following Operation for Colorectal Cancer
title_full_unstemmed Tumor Genome Wide DNA Alterations Assessed by Array CGH in Patients with Poor and Excellent Survival following Operation for Colorectal Cancer
title_sort tumor genome wide dna alterations assessed by array cgh in patients with poor and excellent survival following operation for colorectal cancer
publisher SAGE Publishing
series Cancer Informatics
issn 1176-9351
publishDate 2007-01-01
description Genome wide DNA alterations were evaluated by array CGH in addition to RNA expression profiling in colorectal cancer from patients with excellent and poor survival following primary operations. DNA was used for CGH in BAC and cDNA arrays. Global RNA expression was determined by 44K arrays. DNA and RNA from tumor and normal colon were used from cancer patients grouped according to death, survival or Dukes A, B, C and D tumor stage. Confirmed DNA alterations in all Dukes A – D were judged relevant for carcinogenesis, while changes in Dukes C and D only were regarded relevant for tumor progression. Copy number gain was more common than loss in tumor tissue (p < 0.01). Major tumor DNA alterations occurred in chromosome 8, 13, 18 and 20, where short survival included gain in 8q and loss in 8p. Copy number gains related to tumor progression were most common on chromosome 7, 8, 19, 20, while corresponding major losses appeared in chromosome 8. Losses at chromosome 18 occurred in all Dukes stages. Normal colon tissue from cancer patients displayed gains in chromosome 19 and 20. Mathematical Vector analysis implied a number of BAC-clones in tumor DNA with genes of potential importance for death or survival. The genomic variation in colorectal cancer cells is tremendous and emphasizes that BAC array CGH is presently more powerful than available statistical models to discriminate DNA sequence information related to outcome. Present results suggest that a majority of DNA alterations observed in colorectal cancer are secondary to tumor progression. Therefore, it would require an immense work to distinguish primary from secondary DNA alterations behind colorectal cancer.
url https://doi.org/10.1177/117693510700300014
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