Normal telomere length and chromosomal end capping in poly(ADP-ribose) polymerase–deficient mice and primary cells despite increased chromosomal instability
Enrique Samper,Fermín A. Goytisolo,Josiane Ménissier-de Murcia,Eva González-Suárez,Juan C. Cigudosa,Gilbert de Murcia,Maria A. Blasco +6 more
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TLDR
The results presented here indicate that PARp-1 does not play a major role in regulating telomere length or in telomeric end capping, and the chromosomal instability of PARP-1−/− primary cells can be explained by the repair defect associated to PARP -1 deficiency.Abstract:
Poly(ADP-ribose) polymerase (PARP)-1, a detector of single-strand breaks, plays a key role in the cellular response to DNA damage. PARP-1-deficient mice are hypersensitive to genotoxic agents and display genomic instability due to a DNA repair defect in the base excision repair pathway. A previous report suggested that PARP-1-deficient mice also had a severe telomeric dysfunction consisting of telomere shortening and increased end-to-end fusions (d'Adda di Fagagna, F., M.P. Hande, W.-M. Tong, P.M. Lansdorp, Z.-Q. Wang, and S.P. Jackson. 1999. NAT: Genet. 23:76-80). In contrast to that, and using a panoply of techniques, including quantitative telomeric (Q)-FISH, we did not find significant differences in telomere length between wild-type and PARP-1(-/)- littermate mice or PARP-1(-/)- primary cells. Similarly, there were no differences in the length of the G-strand overhang. Q-FISH and spectral karyotyping analyses of primary PARP-1(-/)- cells showed a frequency of 2 end-to-end fusions per 100 metaphases, much lower than that described previously (d'Adda di Fagagna et al., 1999). This low frequency of end-to-end fusions in PARP-1(-/)- primary cells is accordant with the absence of severe proliferative defects in PARP-1(-/)- mice. The results presented here indicate that PARP-1 does not play a major role in regulating telomere length or in telomeric end capping, and the chromosomal instability of PARP-1(-/)- primary cells can be explained by the repair defect associated to PARP-1 deficiency. Finally, no interaction between PARP-1 and the telomerase reverse transcriptase subunit, Tert, was found using the two-hybrid assay.read more
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Patent
Immediate release pharmaceutical formulation of 4-[3-(4-cyclopropanecarbonyl-piperazine-1-carbonyl)-4-fluoro-benzyl]-2h-phthalazin-1-one
Bechtold Michael Karl,Cahill Julie Kay,Fastnacht Katja Maren,Kieran James Lennon,Bernd Liepold,Claudia Bettina Packhaeuser,Benedikt Steitz +6 more
TL;DR: In this paper, a pharmaceutical formulation comprising the drug 4-[3-(4-cyclopropanecarbonyl-piperazine-1-carbonyl)-4-fluoro-benzyl]-2H-phthalazin-1, one in a solid dispersion with a matrix polymer that exhibits low hygroscopicity and high softening temperature.
Journal ArticleDOI
PARP-1-dependent 3-nitrotyrosine protein modification after DNA damage
Eva Siles,Esther Martínez-Lara,María Isabel Núñez,José Antonio Muñoz-Gámez,José Antonio Muñoz-Gámez,David Martín-Oliva,David Martín-Oliva,M. T. Valenzuela,Maria Angeles Peinado,J M Ruiz de Almodóvar,F. Javier Oliver +10 more
TL;DR: The results suggest that NO‐derived injury can be modulated by proteins involved in the response to genotoxic damage, such as PARP‐1, and may account for the limited oxidative injury in parp‐1 knockout mice during carcinogenesis and inflammation.
Dissertation
Interaction of Poly(ADP-ribose) and Specific Binding Proteins as a Function of Chain Length
Journal ArticleDOI
Functions of ADP-ribose transferases in the maintenance of telomere integrity
TL;DR: A review of the current knowledge on the multiple roles of PARP1, PARP2,PARP3, tankyrase 1 and tankyrases 2 in the maintenance and preservation of telomere integrity is presented in this paper .
References
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A new regulatory motif in cell-cycle control causing specific inhibition of cyclin D/CDK4
TL;DR: P16 seems to act in a regulatory feedback circuit with CDK4, D-type cyclins and retinoblastoma protein, and inhibits the catalytic activity of theCDK4/cyclin D enzymes.
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Structure and function of telomeres
TL;DR: The DNA of telomeres—the terminal DNA-protein complexes of chromosomes—differs notably from other DNA sequences in both structure and function, and has been shown to be essential for telomere maintenance and long-term viability.
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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.
Journal ArticleDOI
Structure and function of telomeres
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