Tetrameric TRF2 forms t-loop to protect telomeres from ATM signaling and cNHEJ
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Abstract
Telomeres often occur in the t-loop structure, formed through the base-pairing of the 3’ telomeric overhang is base-paired with more internal telomeric DNA. T-loops are proposed to avert ATM kinase signaling and classical non-homologous end joining (cNHEJ) by sequestering the telomere end. The shelterin subunit TRF2 is required for t-loop formation but how it generates t-loops is not known and the t-loop model for telomere protection remains untested. We show that TRF2 binds telomeric DNA as a tetramer using two dimerization domains and that tetramerization is critical for telomere protection. Furthermore, TRF1, the TRF2 paralog that binds DNA as a dimer and does not form t-loops, gained the ability to form t-loops in vivo upon its tetramerization through the addition of a second dimerization domain. We propose that TRF2 tetramers loop telomeric DNA, resulting in torsional stress and opening of the helix, which is a requirement for t-loop formation. Importantly, t-loops formed by tetrameric TRF1 were sufficient to avert ATM signaling and blocked most cNHEJ at telomeres, demonstrating that t-loops per se protect telomeres from these threats.
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- europepmc
- last seen: 2026-05-20T01:45:00.602351+00:00