Extrachromosomal telomere repeat DNA is linked to ALT development via cGAS-STING DNA sensing pathway.
Yi-An ChenYi-Ling ShenHsuan-Yu HsiaYee-Peng TiangTzu-Ling SungLiuh-Yow ChenPublished in: Nature structural & molecular biology (2017)
Extrachromosomal telomere repeat (ECTR) DNA is unique to cancer cells that maintain telomeres through the alternative lengthening of telomeres (ALT) pathway, but the role of ECTRs in ALT development remains elusive. We found that induction of ECTRs in normal human fibroblasts activated the cGAS-STING-TBK1-IRF3 signaling axis to trigger IFNβ production and a type I interferon response, resulting in cell-proliferation defects. In contrast, ALT cancer cells are commonly defective in sensing cytosolic DNA. We found that STING expression was inhibited in ALT cancer cell lines and transformed ALT cells. Notably, the ALT suppressors histone H3.3 and the ATRX-Daxx histone chaperone complex were also required to activate the DNA-sensing pathway. Collectively, our data suggest that the loss of the cGAS-STING pathway may be required to evade ECTR-induced anti-proliferation effects and permit ALT development, and this requirement may be exploited for treatments specific to cancers utilizing the ALT pathway.
Keyphrases
- circulating tumor
- cell free
- single molecule
- cell proliferation
- dendritic cells
- magnetic resonance
- nucleic acid
- signaling pathway
- endothelial cells
- magnetic resonance imaging
- poor prognosis
- gene expression
- squamous cell carcinoma
- immune response
- cell cycle
- machine learning
- computed tomography
- pi k akt
- young adults
- endoplasmic reticulum stress
- binding protein
- cell cycle arrest
- heat shock