Communications Chemistry (Nov 2023)

Conformational plasticity and allosteric communication networks explain Shelterin protein TPP1 binding to human telomerase

  • Simone Aureli,
  • Vince Bart Cardenas,
  • Stefano Raniolo,
  • Vittorio Limongelli

DOI
https://doi.org/10.1038/s42004-023-01040-y
Journal volume & issue
Vol. 6, no. 1
pp. 1 – 10

Abstract

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Abstract The Shelterin complex protein TPP1 interacts with human telomerase (TERT) by means of the TEL-patch region, controlling telomere homeostasis. Aberrations in the TPP1-TERT heterodimer formation might lead to short telomeres and severe diseases like dyskeratosis congenita and Hoyeraal-Hreidarsson syndrome. In the present study, we provide a thorough characterization of the structural properties of the TPP1’s OB-domain by combining data coming from microsecond-long molecular dynamics calculations, time-series analyses, and graph-based networks. Our results show that the TEL-patch conformational freedom is influenced by a network of long-range amino acid communications that together determine the proper TPP1-TERT binding. Furthermore, we reveal that in TPP1 pathological variants Glu169Δ, Lys170Δ and Leu95Gln, the TEL-patch plasticity is reduced, affecting the correct binding to TERT and, in turn, telomere processivity, which eventually leads to accelerated aging of affected cells. Our study provides a structural basis for the design of TPP1-targeting ligands with therapeutic potential against cancer and telomeropathies.