Mammalian Ku86 mediates chromosomal fusions and apoptosis caused by critically short telomeres.
Silvia Espejel,Sonia Franco,Sandra Rodriguez-Perales,Simon Bouffler,Juan C. Cigudosa,Maria A. Blasco +5 more
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TLDR
It is shown that absence of Ku86 prevents the end‐to‐end chromosomal fusions that result from critical telomere shortening in telomerase‐deficient mice, and Ku86 deficiency rescues the male early germ cell apoptosis triggered by short telomeres in these mice.Abstract:
Here we analyze the functional interaction between Ku86 and telomerase at the mammalian telomere by studying mice deficient for both proteins. We show that absence of Ku86 prevents the end-to-end chromosomal fusions that result from critical telomere shortening in telomerase-deficient mice. In addition, Ku86 deficiency rescues the male early germ cell apoptosis triggered by short telomeres in these mice. Together, these findings define a role for Ku86 in mediating chromosomal instability and apoptosis triggered by short telomeres. In addition, we show here that Ku86 deficiency results in telomerase-dependent telomere elongation and in the fusion of random pairs of chromosomes in telomerase-proficient cells, suggesting a model in which Ku86 keeps normal-length telomeres less accessible to telomerase- mediated telomere lengthening and to DNA repair activities.read more
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Telomeres and human disease: ageing, cancer and beyond
TL;DR: Altered functioning of both telomerase and telomere-interacting proteins is present in some human premature ageing syndromes and in cancer, and recent findings indicate that alterations that affect telomeres at the level of chromatin structure might also have a role in human disease.
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H2AX: the histone guardian of the genome.
TL;DR: A model in which chromatin restructuring mediated by H2AX phosphorylation serves to concentrate DNA repair/signaling factors and/or tether DNA ends together, which could explain the pleotropic phenotypes observed in its absence is suggested.
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DNA Repair, Genome Stability, and Aging
David B. Lombard,Katrin F. Chua,Raul Mostoslavsky,Sonia Franco,Monica Gostissa,Frederick W. Alt +5 more
TL;DR: Evidence linking aging to nuclear DNA lesions is reviewed: DNA damage accumulates with age, and DNA repair defects can cause phenotypes resembling premature aging.
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The role of double-strand break repair - insights from human genetics
Mark O'Driscoll,Penny A. Jeggo +1 more
TL;DR: Understanding of the molecular basis that underlies the diverse clinical features of human disorders with pleiotropic clinical features is enhancing the understanding of the damage-response mechanisms and their role in development, and might ultimately facilitate treatment.
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Epigenetic regulation of telomere length in mammalian cells by the Suv39h1 and Suv39h2 histone methyltransferases.
Marta García-Cao,Roderick J. O'Sullivan,Antoine H.F.M. Peters,Thomas Jenuwein,Maria A. Blasco +4 more
TL;DR: Findings indicate substantial changes in the state of telomeric heterochromatin in SUV39DN cells, which are associated with abnormal telomere elongation.
References
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A survey of telomerase activity in human cancer
Jerry W. Shay,Silvia Bacchetti +1 more
TL;DR: All major types of cancer have been screened and the presence of telomerase activity has been detected in the vast majority of cases, and a summary, in table form, of the current data is provided.
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Mammalian Telomeres End in a Large Duplex Loop
Jack D. Griffith,Laurey Comeau,Soraya Rosenfield,Rachel M. Stansel,Alessandro Bianchi,Heidi Moss,Titia de Lange +6 more
TL;DR: Electron microscopy reported here demonstrated that TRF2 can remodel linear telomeric DNA into large duplex loops (t loops) in vitro, which may provide a general mechanism for the protection and replication of telomeres.
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Telomere Shortening and Tumor Formation by Mouse Cells Lacking Telomerase RNA
Maria A. Blasco,Maria A. Blasco,Han Woong Lee,M. Prakash Hande,Enrique Samper,Peter M. Lansdorp,Ronald A. DePinho,Carol W. Greider,Carol W. Greider +8 more
TL;DR: Results indicate that telomerase is essential for telomere length maintenance but is not required for establishment of cell lines, oncogenic transformation, or tumor formation in mice.
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Switching and Signaling at the Telomere
TL;DR: The structure of telomeres, the protective DNA-protein complexes at eukaryotic chromosomal ends, and several molecular mechanisms involved in telomere functions are described.
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TRF2 Protects Human Telomeres from End-to-End Fusions
TL;DR: It is shown that the human telomeric protein TRF2 plays a key role in the protective activity of telomeres, and the results raise the possibility that chromosome end fusions and senescence in primary human cells may be caused by loss byTRF2 from shortenedtelomeres.