A persistent variant telomere sequence in a human pedigree

Angela M. Hinchie; Samantha L. Sanford; Kelly E. Loughridge; Rachel M. Sutton; Anishka H. Parikh; Agustin A. Gil Silva; Daniel I. Sullivan; Pattra Chun-On; Matthew R. Morrell; John F. McDyer; Patricia L. Opresko; Jonathan K. Alder

doi:10.1038/s41467-024-49072-9

Nature Communications (Jun 2024)

A persistent variant telomere sequence in a human pedigree

Angela M. Hinchie,
Samantha L. Sanford,
Kelly E. Loughridge,
Rachel M. Sutton,
Anishka H. Parikh,
Agustin A. Gil Silva,
Daniel I. Sullivan,
Pattra Chun-On,
Matthew R. Morrell,
John F. McDyer,
Patricia L. Opresko,
Jonathan K. Alder

Affiliations

Angela M. Hinchie: Dorothy P. and Richard P. Simmons Center for Interstitial Lung Disease, University of Pittsburgh
Samantha L. Sanford: Environmental and Occupational Health Department, School of Public Health, University of Pittsburgh
Kelly E. Loughridge: Dorothy P. and Richard P. Simmons Center for Interstitial Lung Disease, University of Pittsburgh
Rachel M. Sutton: Dorothy P. and Richard P. Simmons Center for Interstitial Lung Disease, University of Pittsburgh
Anishka H. Parikh: Dorothy P. and Richard P. Simmons Center for Interstitial Lung Disease, University of Pittsburgh
Agustin A. Gil Silva: Dorothy P. and Richard P. Simmons Center for Interstitial Lung Disease, University of Pittsburgh
Daniel I. Sullivan: Dorothy P. and Richard P. Simmons Center for Interstitial Lung Disease, University of Pittsburgh
Pattra Chun-On: Dorothy P. and Richard P. Simmons Center for Interstitial Lung Disease, University of Pittsburgh
Matthew R. Morrell: Division of Pulmonary, Allergy, Critical Care, and Sleep Medicine, University of Pittsburgh
John F. McDyer: Division of Pulmonary, Allergy, Critical Care, and Sleep Medicine, University of Pittsburgh
Patricia L. Opresko: Environmental and Occupational Health Department, School of Public Health, University of Pittsburgh
Jonathan K. Alder: Dorothy P. and Richard P. Simmons Center for Interstitial Lung Disease, University of Pittsburgh

DOI: https://doi.org/10.1038/s41467-024-49072-9
Journal volume & issue: Vol. 15, no. 1
pp. 1 – 16

Abstract

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Abstract The telomere sequence, TTAGGG, is conserved across all vertebrates and plays an essential role in suppressing the DNA damage response by binding a set of proteins termed shelterin. Changes in the telomere sequence impair shelterin binding, initiate a DNA damage response, and are toxic to cells. Here we identify a family with a variant in the telomere template sequence of telomerase, the enzyme responsible for telomere elongation, that led to a non-canonical telomere sequence. The variant is inherited across at least one generation and one family member reports no significant medical concerns despite ~9% of their telomeres converting to the novel sequence. The variant template disrupts telomerase repeat addition processivity and decreased the binding of the telomere-binding protein POT1. Despite these disruptions, the sequence is readily incorporated into cellular chromosomes. Incorporation of a variant sequence prevents POT1-mediated inhibition of telomerase suggesting that incorporation of a variant sequence may influence telomere addition. These findings demonstrate that telomeres can tolerate substantial degeneracy while remaining functional and provide insights as to how incorporation of a non-canonical telomere sequence might alter telomere length dynamics.

Published in Nature Communications

ISSN: 2041-1723 (Online)
Publisher: Nature Portfolio
Country of publisher: United Kingdom
LCC subjects: Science
Website: https://www.nature.com/ncomms/

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