CGGBP1 phosphorylation constitutes a telomere-protection signal |
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| Authors: | Umashankar Singh Varun Maturi Rhiannon Jones Ylva Paulsson Duncan Baird |
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| Affiliation: | 1. Department of Immunology, Genetics, and Pathology;2. Uppsala University;3. Tumor Biology;4. Rudbeck Laboratory;5. Uppsala, Sweden;6. Ludwig Institute for Cancer Research;7. Science for Life Laboratory;8. Biomedical Center;9. Department of Pathology;10. School of Medicine;11. Cardiff University;12. Cardiff, UK |
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| Abstract: | The shelterin proteins are required for telomere integrity. Shelterin dysfunction can lead to initiation of unwarranted DNA damage and repair pathways at chromosomal termini. Interestingly, many shelterin accessory proteins are involved in DNA damage signaling and repair. We demonstrate here that in normal human fibroblasts, telomeric ends are protected by phosphorylation of CGG triplet repeat-binding protein 1 (CGGBP1) at serine 164 (S164). We show that serine 164 is a major phosphorylation site on CGGBP1 with important functions. We provide evidence that one of the kinases that can phosphorylate S164 CGGBP1 is ATR. Overexpression of S164A phospho-deficient CGGBP1 exerted a dominant-negative effect, causing telomeric dysfunction, accelerated telomere shortening, enhanced fusion of telomeres, and crisis. However, overexpression of wild-type or phospho-mimicking S164E CGGBP1 did not cause these effects. This telomere damage was associated with reduced binding of the shelterin protein POT1 to telomeric DNA. Our results suggest that CGGBP1 phosphorylation at S164 is a novel telomere protection signal, which can affect telomere-protective function of the shelterin complex. |
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| Keywords: | DNA damage telomeres CGGBP1 POT1 telomere fusions |
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