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Loss of Ten1 in mice induces telomere shortening and models human dyskeratosis congenita

Adrián Sanz‐Moreno, Lore Becker, Kan Xie, Patricia da Silva‐Buttkus, Nathalia Romanelli Vicente Dragano, Juan Antonio Aguilar‐Pimentel, Oana V. Amarie, Julia Calzada‐Wack, Markus Kraiger, Stefanie Leuchtenberger, Claudia Seisenberger, Susan Marschall, Birgit Rathkolb, Enzo Scifo, Ting Liu

Science Advances · 2025 · ▲ 4 citations

Telomere attrition Cellular senescence Stem-cell exhaustion Altered intercellular communication Gene therapy Human Mouse

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Abstract

Telomere length regulation is essential for genome stability as short telomeres can trigger cellular senescence and apoptosis constituting an integral aspect of biological aging. Telomere biology disorders (TBDs) such as dyskeratosis congenita (DC) are rare, inherited diseases with known mutations in at least 16 different genes encoding components of the telomere maintenance complexes. The precise role of TEN1, part of the CST complex (CTC1, STN1, and TEN1), and the consequences of its loss of function in vivo are not yet known. We investigated the first viable murine model of Ten1 deficiency created by CRISPR-Cas9–mediated exon 3 deletion. Ten1 homozygous knockout mice present with telomere attrition, short life span, skin hyperpigmentation, aplastic anemia, and cerebellar hypoplasia. Molecular analyses revealed a reduction of proliferating cells, increased apoptosis, and stem cell depletion with activation of the p53/p21 signaling pathway. Our data demonstrate that Ten1 deficiency causes telomere shortening and associates with accelerated aging.

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Provenance

Source: OpenAlex
DOI: 10.1126/sciadv.adp8093
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Fetched: 2026-06-02 MST

Cite this

APA

Sanz‐Moreno, A., Becker, L., Xie, K., Silva‐Buttkus, P.D., Dragano, N.R.V., Aguilar‐Pimentel, J.A., Amarie, O.V., Calzada‐Wack, J., Kraiger, M., Leuchtenberger, S., Seisenberger, C., Marschall, S., Rathkolb, B., Scifo, E., Liu, T., Thanabalasingam, A., Sánchez-Vazquez, R., Martinez, P.F., Blasco, M.A., & Savage, S.A. (2025). Loss of Ten1 in mice induces telomere shortening and models human dyskeratosis congenita. <em>Science Advances</em>. https://doi.org/10.1126/sciadv.adp8093

Vancouver

Sanz‐Moreno A, Becker L, Xie K, Silva‐Buttkus PD, Dragano NRV, Aguilar‐Pimentel JA, et al. Loss of Ten1 in mice induces telomere shortening and models human dyskeratosis congenita. Science Advances. 2025. doi:10.1126/sciadv.adp8093.

BibTeX

@article{adrin2025Lossof, title = {Loss of Ten1 in mice induces telomere shortening and models human dyskeratosis congenita}, author = {Adrián Sanz‐Moreno and Lore Becker and Kan Xie and Patricia da Silva‐Buttkus and Nathalia Romanelli Vicente Dragano and Juan Antonio Aguilar‐Pimentel and Oana V. Amarie and Julia Calzada‐Wack and Markus Kraiger and Stefanie Leuchtenberger and Claudia Seisenberger and Susan Marschall and Birgit Rathkolb and Enzo Scifo and Ting Liu and Anoja Thanabalasingam and Raúl Sánchez-Vazquez and Paula Felippe Martinez and Marı́a A. Blasco and Sharon A. Savage and Helmut Fuchs and Dan Ehninger and Valérie Gailus‐Durner and Martin Hrabě de Angelis}, journal = {Science Advances}, year = {2025}, doi = {10.1126/sciadv.adp8093}, }