PAR-TERRA is the main contributor to telomeric repeat-containing RNA transcripts in normal and cancer mouse cells.
Nikenza ViceconteAxelle E LoriotPatrícia Lona AbreuMarion ScheibeAlbert Fradera SolaFalk ButterCharles De SmetClaus M AzzalinNausica ArnoultAnabelle DecottigniesPublished in: RNA (New York, N.Y.) (2020)
Telomeric repeat-containing RNA (TERRA) molecules play important roles at telomeres, from heterochromatin regulation to telomerase activity control. In human cells, TERRA is transcribed from subtelomeric promoters located on most chromosome ends and associates with telomeres. The origin of mouse TERRA molecules is, however, unclear, as transcription from the pseudoautosomal PAR locus was recently suggested to account for the vast majority of TERRA in embryonic stem cells (ESC). Here, we confirm the production of TERRA from both the chromosome 18q telomere and the PAR locus in mouse embryonic fibroblasts, ESC, and various mouse cancer and immortalized cell lines, and we identify two novel sources of TERRA on mouse chromosome 2 and X. Using various approaches, we show that PAR-TERRA molecules account for the majority of TERRA transcripts, displaying an increase of two to four orders of magnitude compared to the telomeric 18q transcript. Finally, we present a SILAC-based pull-down screen revealing a large overlap between TERRA-interacting proteins in human and mouse cells, including PRC2 complex subunits, chromatin remodeling factors, DNA replication proteins, Aurora kinases, shelterin complex subunits, Bloom helicase, Coilin, and paraspeckle proteins. Hence, despite originating from distinct genomic regions, mouse and human TERRA are likely to play similar functions in cells.
Keyphrases
- induced apoptosis
- cell cycle arrest
- endothelial cells
- copy number
- papillary thyroid
- embryonic stem cells
- gene expression
- dna damage response
- dna damage
- endoplasmic reticulum stress
- young adults
- signaling pathway
- high throughput
- dna methylation
- squamous cell carcinoma
- drinking water
- genome wide
- single cell
- lymph node metastasis