A Werner syndrome stem cell model unveils heterochromatin alterations as a driver of human aging
2015; American Association for the Advancement of Science; Volume: 348; Issue: 6239 Linguagem: Inglês
10.1126/science.aaa1356
ISSN1095-9203
AutoresWeiqi Zhang, Jingyi Li, Keiichiro Suzuki, Jing Qu, Ping Wang, Junzhi Zhou, Xiaomeng Liu, Ruotong Ren, Xiuling Xu, Alejandro Ocampo, Tingting Yuan, Jiping Yang, Ying Li, Liang Shi, Dee Guan, Huize Pan, Shunlei Duan, Zhichao Ding, Mo Li, Fei Yi, Ruijun Bai, Yayu Wang, Chang Chen, Fuquan Yang, Xiaoyu Li, Zimei Wang, Emi Aizawa, April Goebl, Rupa Devi Soligalla, Pradeep Reddy, Concepción Rodrı́guez Esteban, Fuchou Tang, Guang‐Hui Liu, Juan Carlos Izpisúa Belmonte,
Tópico(s)Pluripotent Stem Cells Research
ResumoHeterochromatin in aging stem cells Analysis of human aging syndromes, such as Werner syndrome (WS), may lead to greater understanding of both premature and normal aging. Zhang et al. generated isogenic WS-specific human embryonic stem cell lines (see the Perspective by Brunauer and Kennedy). WS-mesenchymal stem cells displayed features characteristic of premature aging, including heterochromatin disorganization. WRN protein thus functions in the maintenance of heterochromatin, and heterochromatin alterations may represent a driving force of human aging. Science , this issue p. 1160 ; see also p. 1093
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