Single Chromosome Aneuploidy Induces Genome-Wide Perturbation of Nuclear Organization and Gene Expression

Single Chromosome Aneuploidy Induces Genome-Wide Perturbation of Nuclear Organization and Gene Expression

Chromosomal aneuploidy is a defining feature of carcinomas and results in tumor-entity specific genomic imbalances. For instance, most sporadic colorectal carcinomas carry extra copies of chromosome 7, an aneuploidy that emerges already in premalignant adenomas, and is maintained throughout tumor pr...

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Main Authors: Rüdiger Braun, Scott Ronquist, Darawalee Wangsa, Haiming Chen, Lena Anthuber, Timo Gemoll, Danny Wangsa, Vishal Koparde, Cynthia Hunn, Jens K. Habermann, Kerstin Heselmeyer-Haddad, Indika Rajapakse, Thomas Ried
Format: Article
Language:English
Published: Elsevier 2019-04-01
Series:Neoplasia: An International Journal for Oncology Research
Online Access:http://www.sciencedirect.com/science/article/pii/S1476558619300119
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author Rüdiger Braun
Scott Ronquist
Darawalee Wangsa
Haiming Chen
Lena Anthuber
Timo Gemoll
Danny Wangsa
Vishal Koparde
Cynthia Hunn
Jens K. Habermann
Kerstin Heselmeyer-Haddad
Indika Rajapakse
Thomas Ried
spellingShingle Rüdiger Braun
Scott Ronquist
Darawalee Wangsa
Haiming Chen
Lena Anthuber
Timo Gemoll
Danny Wangsa
Vishal Koparde
Cynthia Hunn
Jens K. Habermann
Kerstin Heselmeyer-Haddad
Indika Rajapakse
Thomas Ried
Single Chromosome Aneuploidy Induces Genome-Wide Perturbation of Nuclear Organization and Gene Expression
Neoplasia: An International Journal for Oncology Research
author_facet Rüdiger Braun
Scott Ronquist
Darawalee Wangsa
Haiming Chen
Lena Anthuber
Timo Gemoll
Danny Wangsa
Vishal Koparde
Cynthia Hunn
Jens K. Habermann
Kerstin Heselmeyer-Haddad
Indika Rajapakse
Thomas Ried
author_sort Rüdiger Braun
title Single Chromosome Aneuploidy Induces Genome-Wide Perturbation of Nuclear Organization and Gene Expression
title_short Single Chromosome Aneuploidy Induces Genome-Wide Perturbation of Nuclear Organization and Gene Expression
title_full Single Chromosome Aneuploidy Induces Genome-Wide Perturbation of Nuclear Organization and Gene Expression
title_fullStr Single Chromosome Aneuploidy Induces Genome-Wide Perturbation of Nuclear Organization and Gene Expression
title_full_unstemmed Single Chromosome Aneuploidy Induces Genome-Wide Perturbation of Nuclear Organization and Gene Expression
title_sort single chromosome aneuploidy induces genome-wide perturbation of nuclear organization and gene expression
publisher Elsevier
series Neoplasia: An International Journal for Oncology Research
issn 1476-5586
publishDate 2019-04-01
description Chromosomal aneuploidy is a defining feature of carcinomas and results in tumor-entity specific genomic imbalances. For instance, most sporadic colorectal carcinomas carry extra copies of chromosome 7, an aneuploidy that emerges already in premalignant adenomas, and is maintained throughout tumor progression and in derived cell lines. A comprehensive understanding on how chromosomal aneuploidy affects nuclear organization and gene expression, i.e., the nucleome, remains elusive. We now analyzed a cell line established from healthy colon mucosa with a normal karyotype (46,XY) and its isogenic derived cell line that acquired an extra copy of chromosome 7 as its sole anomaly (47,XY,+7). We studied structure/function relationships consequent to aneuploidization using genome-wide chromosome conformation capture (Hi-C), RNA sequencing and protein profiling. The gain of chromosome 7 resulted in an increase of transcript levels of resident genes as well as genome-wide gene and protein expression changes. The Hi-C analysis showed that the extra copy of chromosome 7 is reflected in more interchromosomal contacts between the triploid chromosomes. Chromatin organization changes are observed genome-wide, as determined by changes in A/B compartmentalization and topologically associating domain (TAD) boundaries. Most notably, chromosome 4 shows a profound loss of chromatin organization, and chromosome 14 contains a large A/B compartment switch region, concurrent with resident gene expression changes. No changes to the nuclear position of the additional chromosome 7 territory were observed when measuring distances of chromosome painting probes by interphase FISH. Genome and protein data showed enrichment in signaling pathways crucial for malignant transformation, such as the HGF/MET-axis. We conclude that a specific chromosomal aneuploidy has profound impact on nuclear structure and function, both locally and genome-wide. Our study provides a benchmark for the analysis of cancer nucleomes with complex karyotypes.
url http://www.sciencedirect.com/science/article/pii/S1476558619300119
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spelling doaj-35d0a8085ffe429fa3c4e14eb3f336492020-11-25T00:02:43ZengElsevierNeoplasia: An International Journal for Oncology Research1476-55862019-04-01214401412Single Chromosome Aneuploidy Induces Genome-Wide Perturbation of Nuclear Organization and Gene ExpressionRüdiger Braun0Scott Ronquist1Darawalee Wangsa2Haiming Chen3Lena Anthuber4Timo Gemoll5Danny Wangsa6Vishal Koparde7Cynthia Hunn8Jens K. Habermann9Kerstin Heselmeyer-Haddad10Indika Rajapakse11Thomas Ried12Section of Cancer Genomics, National Cancer Institute, Center for Cancer Research, NIH, Bethesda, MD, USADepartment of Computational Medicine and Bioinformatics, University of Michigan, Ann Arbor, MI, USASection of Cancer Genomics, National Cancer Institute, Center for Cancer Research, NIH, Bethesda, MD, USADepartment of Computational Medicine and Bioinformatics, University of Michigan, Ann Arbor, MI, USASection of Cancer Genomics, National Cancer Institute, Center for Cancer Research, NIH, Bethesda, MD, USASection for Translational Surgical Oncology and Biobanking, Department of Surgery, University of Lübeck and University Medical Center Schleswig-Holstein, Lübeck, GermanySection of Cancer Genomics, National Cancer Institute, Center for Cancer Research, NIH, Bethesda, MD, USACCR Collaborative Bioinformatics Resource (CCBR), Center for Cancer Research, NCI, Bethesda, MD, USA; Advanced Biomedical Computational Science, Frederick National Laboratory for Cancer Research sponsored by the National Cancer Institute, Frederick, MD, USASection of Cancer Genomics, National Cancer Institute, Center for Cancer Research, NIH, Bethesda, MD, USASection for Translational Surgical Oncology and Biobanking, Department of Surgery, University of Lübeck and University Medical Center Schleswig-Holstein, Lübeck, GermanySection of Cancer Genomics, National Cancer Institute, Center for Cancer Research, NIH, Bethesda, MD, USADepartment of Computational Medicine and Bioinformatics, University of Michigan, Ann Arbor, MI, USA; Department of Mathematics, University of Michigan, Ann Arbor, MI, USA; Address all correspondence to: Thomas Ried, MD, Section of Cancer Genomics, National Cancer Institute, Center for Cancer Research, NIH, 50 South Drive, Rm. 1408, Bethesda, MD, USA. or Indika Rajapakse, PhD, University of Michigan, 1600 Huron Parkway, Bldg. 520, Rm. 3392, Ann Arbor, MI 48105.Section of Cancer Genomics, National Cancer Institute, Center for Cancer Research, NIH, Bethesda, MD, USA; Address all correspondence to: Thomas Ried, MD, Section of Cancer Genomics, National Cancer Institute, Center for Cancer Research, NIH, 50 South Drive, Rm. 1408, Bethesda, MD, USA. or Indika Rajapakse, PhD, University of Michigan, 1600 Huron Parkway, Bldg. 520, Rm. 3392, Ann Arbor, MI 48105.Chromosomal aneuploidy is a defining feature of carcinomas and results in tumor-entity specific genomic imbalances. For instance, most sporadic colorectal carcinomas carry extra copies of chromosome 7, an aneuploidy that emerges already in premalignant adenomas, and is maintained throughout tumor progression and in derived cell lines. A comprehensive understanding on how chromosomal aneuploidy affects nuclear organization and gene expression, i.e., the nucleome, remains elusive. We now analyzed a cell line established from healthy colon mucosa with a normal karyotype (46,XY) and its isogenic derived cell line that acquired an extra copy of chromosome 7 as its sole anomaly (47,XY,+7). We studied structure/function relationships consequent to aneuploidization using genome-wide chromosome conformation capture (Hi-C), RNA sequencing and protein profiling. The gain of chromosome 7 resulted in an increase of transcript levels of resident genes as well as genome-wide gene and protein expression changes. The Hi-C analysis showed that the extra copy of chromosome 7 is reflected in more interchromosomal contacts between the triploid chromosomes. Chromatin organization changes are observed genome-wide, as determined by changes in A/B compartmentalization and topologically associating domain (TAD) boundaries. Most notably, chromosome 4 shows a profound loss of chromatin organization, and chromosome 14 contains a large A/B compartment switch region, concurrent with resident gene expression changes. No changes to the nuclear position of the additional chromosome 7 territory were observed when measuring distances of chromosome painting probes by interphase FISH. Genome and protein data showed enrichment in signaling pathways crucial for malignant transformation, such as the HGF/MET-axis. We conclude that a specific chromosomal aneuploidy has profound impact on nuclear structure and function, both locally and genome-wide. Our study provides a benchmark for the analysis of cancer nucleomes with complex karyotypes.http://www.sciencedirect.com/science/article/pii/S1476558619300119

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