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ATRX loss induces telomere dysfunction and necessitates induction of alternative lengthening of telomeres during human cell immortalization.


ABSTRACT: Loss of the histone H3.3-specific chaperone component ATRX or its partner DAXX frequently occurs in human cancers that employ alternative lengthening of telomeres (ALT) for chromosomal end protection, yet the underlying mechanism remains unclear. Here, we report that ATRX/DAXX does not serve as an immediate repressive switch for ALT. Instead, ATRX or DAXX depletion gradually induces telomere DNA replication dysfunction that activates not only homology-directed DNA repair responses but also cell cycle checkpoint control. Mechanistically, we demonstrate that this process is contingent on ATRX/DAXX histone chaperone function, independently of telomere length. Combined ATAC-seq and telomere chromatin immunoprecipitation studies reveal that ATRX loss provokes progressive telomere decondensation that culminates in the inception of persistent telomere replication dysfunction. We further show that endogenous telomerase activity cannot overcome telomere dysfunction induced by ATRX loss, leaving telomere repair-based ALT as the only viable mechanism for telomere maintenance during immortalization. Together, these findings implicate ALT activation as an adaptive response to ATRX/DAXX loss-induced telomere replication dysfunction.

SUBMITTER: Li F 

PROVIDER: S-EPMC6769380 | biostudies-literature | 2019 Oct

REPOSITORIES: biostudies-literature

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ATRX loss induces telomere dysfunction and necessitates induction of alternative lengthening of telomeres during human cell immortalization.

Li Fei F   Deng Zhong Z   Zhang Ling L   Wu Caizhi C   Jin Ying Y   Hwang Inah I   Vladimirova Olga O   Xu Libo L   Yang Lynnie L   Lu Bin B   Dheekollu Javaraju J   Li Jian-Yi JY   Feng Hua H   Hu Jian J   Vakoc Christopher R CR   Ying Haoqiang H   Paik Jihye J   Lieberman Paul M PM   Zheng Hongwu H  

The EMBO journal 20190827 19


Loss of the histone H3.3-specific chaperone component ATRX or its partner DAXX frequently occurs in human cancers that employ alternative lengthening of telomeres (ALT) for chromosomal end protection, yet the underlying mechanism remains unclear. Here, we report that ATRX/DAXX does not serve as an immediate repressive switch for ALT. Instead, ATRX or DAXX depletion gradually induces telomere DNA replication dysfunction that activates not only homology-directed DNA repair responses but also cell  ...[more]

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