Variant repeats are interspersed throughout the telomeres and recruit nuclear receptors in ALT cells

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Abstract

Variant repeats interspersed throughout ALT telomeres recruit nuclear receptors, leading to the destabilized telomere architecture and enhanced telomeric recombination.

Abstract

Telomeres in cells that use the recombination-mediated alternative lengthening of telomeres (ALT) pathway elicit a DNA damage response that is partly independent of telomere length. We therefore investigated whether ALT telomeres contain structural abnormalities that contribute to ALT activity. Here we used next generation sequencing to analyze the DNA content of ALT telomeres. We discovered that variant repeats were interspersed throughout the telomeres of ALT cells. We found that the C-type (TCAGGG) variant repeat predominated and created a high-affinity binding site for the nuclear receptors COUP-TF2 and TR4. Nuclear receptors were directly recruited to telomeres and ALT-associated characteristics were induced after incorporation of the C-type variant repeat by a mutant telomerase. We propose that the presence of variant repeats throughout ALT telomeres results from recombination-mediated telomere replication and spreading of variant repeats from the proximal regions of the telomeres and that the consequent binding of nuclear receptors alters the architecture of telomeres to facilitate further recombination.

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Most cited references 41

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Evidence for an alternative mechanism for maintaining telomere length in human tumors and tumor-derived cell lines.

Tracy Bryan, Anna Englezou, Luciano Dalla‐Pozza … (1997)

The gradual loss of DNA from the ends of telomeres has been implicated in the control of cellular proliferative potential. Telomerase is an enzyme that restores telomeric DNA sequences, and expression of its activity was thought to be essential for the immortalization of human cells, both in vitro and in tumor progression in vivo. Telomerase activity has been detected in 50-100% of tumors of different types, but not in most normal adult somatic tissues. It has also been detected in about 70% of human cell lines immortalized in vitro and in all tumor-derived cell lines examined to date. It has previously been shown that in vitro immortalized telomerase-negative cell lines acquire very long and heterogeneous telomeres in association with immortalization presumably via one or more novel telomere-lengthening mechanisms that we refer to as ALT (alternative lengthening of telomeres). Here we report evidence for the presence of ALT in a subset of tumor-derived cell lines and tumors. The maintenance of telomeres by a mechanism other than telomerase, even in a minority of cancers, has major implications for therapeutic uses of telomerase inhibitors.

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Telomere elongation in immortal human cells without detectable telomerase activity.

T. M. Bryan, A Englezou, J. Gupta … (1995)

Immortalization of human cells is often associated with reactivation of telomerase, a ribonucleoprotein enzyme that adds TTAGGG repeats onto telomeres and compensates for their shortening. We examined whether telomerase activation is necessary for immortalization. All normal human fibroblasts tested were negative for telomerase activity. Thirteen out of 13 DNA tumor virus-transformed cell cultures were also negative in the pre-crisis (i.e. non-immortalized) stage. Of 35 immortalized cell lines, 20 had telomerase activity as expected, but 15 had no detectable telomerase. The 15 telomerase-negative immortalized cell lines all had very long and heterogeneous telomeres of up to 50 kb. Hybrids between telomerase-negative and telomerase-positive cells senesced. Two senescent hybrids demonstrated telomerase activity, indicating that activation of telomerase is not sufficient for immortalization. Some hybrid clones subsequently recommenced proliferation and became immortalized either with or without telomerase activity. Those without telomerase activity also had very long and heterogeneous telomeres. Taken together, these data suggest that the presence of lengthened or stabilized telomeres is necessary for immortalization, and that this may be achieved either by the reactivation of telomerase or by a novel and as yet unidentified mechanism.

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A highly conserved repetitive DNA sequence, (TTAGGG)n, present at the telomeres of human chromosomes.

R K Moyzis, J Buckingham, L. S. Cram … (1988)

A highly conserved repetitive DNA sequence, (TTAGGG)n, has been isolated from a human recombinant repetitive DNA library. Quantitative hybridization to chromosomes sorted by flow cytometry indicates that comparable amounts of this sequence are present on each human chromosome. Both fluorescent in situ hybridization and BAL-31 nuclease digestion experiments reveal major clusters of this sequence at the telomeres of all human chromosomes. The evolutionary conservation of this DNA sequence, its terminal chromosomal location in a variety of higher eukaryotes (regardless of chromosome number or chromosome length), and its similarity to functional telomeres isolated from lower eukaryotes suggest that this sequence is a functional human telomere.

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Author and article information

Journal

Journal ID (nlm-ta): J Cell Biol

Journal ID (iso-abbrev): J. Cell Biol

Journal ID (hwp): jcb

Title: The Journal of Cell Biology

Publisher: The Rockefeller University Press

ISSN (Print): 0021-9525

ISSN (Electronic): 1540-8140

Publication date (Print): 10 December 2012

Volume: 199

Issue: 6

Pages: 893-906

Affiliations

[1 ]Cancer Research Unit and [2 ]Cell Biology Unit, Children’s Medical Research Institute, Westmead NSW 2145, Australia

[3 ]Sydney Medical School, University of Sydney, Sydney NSW 2006, Australia

[4 ]Terry Fox Laboratory, BC Cancer Agency, Vancouver V5Z 1L3, Canada

Author notes

Correspondence to Hilda A. Pickett: hpickett@ 123456cmri.org.au ; or Roger R. Reddel: rreddel@ 123456cmri.org.au

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Publisher ID: 201207189

DOI: 10.1083/jcb.201207189

PMC ID: 3518223

PubMed ID: 23229897

SO-VID: 687d466b-501f-43ce-bd0c-0fd579c1c829

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This article is distributed under the terms of an Attribution–Noncommercial–Share Alike–No Mirror Sites license for the first six months after the publication date (see http://www.rupress.org/terms). After six months it is available under a Creative Commons License (Attribution–Noncommercial–Share Alike 3.0 Unported license, as described at http://creativecommons.org/licenses/by-nc-sa/3.0/).

Variant repeats are interspersed throughout the telomeres and recruit nuclear receptors in ALT cells

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Higher order chromatin architecture

Most cited references 41

Evidence for an alternative mechanism for maintaining telomere length in human tumors and tumor-derived cell lines.

Telomere elongation in immortal human cells without detectable telomerase activity.

A highly conserved repetitive DNA sequence, (TTAGGG)n, present at the telomeres of human chromosomes.

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