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Hyperextended telomeres promote formation of C-circle DNA in telomerase positive human cells

Celina Y. Jones, Christopher L. Williams, Sara Priego Moreno, Danna K. Morris, Chiara Mondello, Jan Karlseder, Alison A. Bertuch

2023Journal of Biological Chemistry11 citationsDOIOpen Access PDF

Abstract

Telomere length maintenance is crucial to cancer cell immortality. Up to 15% of cancers utilize a telomerase-independent, recombination-based mechanism termed alternative lengthening of telomeres (ALT). Currently, the primary ALT biomarker is the C-circle, a type of circular DNA with extrachromosomal telomere repeats (cECTRs). How C-circles form is not well characterized. We investigated C-circle formation in the human cen3tel cell line, a long-telomere, telomerase+ (LTT+) cell line with progressively hyper-elongated telomeres (up to ∼100 kb). cECTR signal was observed in 2D gels and C-circle assays but not t-circle assays, which also detect circular DNA with extrachromosomal telomere repeats. Telomerase activity and C-circle signal were not separable in the analysis of clonal populations, consistent with C-circle production occurring within telomerase+ cells. We observed similar cECTR results in two other LTT+ cell lines, HeLa1.3 (∼23 kb telomeres) and HeLaE1 (∼50 kb telomeres). In LTT+ cells, telomerase activity did not directly impact C-circle signal; instead, C-circle signal correlated with telomere length. LTT+ cell lines were less sensitive to hydroxyurea than ALT+ cell lines, suggesting that ALT status is a stronger contributor to replication stress levels than telomere length. Additionally, the DNA repair-associated protein FANCM did not suppress C-circles in LTT+ cells as it does in ALT+ cells. Thus, C-circle formation may be driven by telomere length, independently of telomerase and replication stress, highlighting limitations of C-circles as a stand-alone ALT biomarker.

Topics & Concepts

TelomereTelomeraseExtrachromosomal DNABiologyRolling circle replicationMolecular biologyShelterinCell cultureDNACell biologyDNA replicationGeneticsGeneDNA-binding proteinPlasmidTranscription factorTelomeres, Telomerase, and SenescenceDNA Repair MechanismsChromosomal and Genetic Variations