The Shelterin TIN2 Subunit Mediates Recruitment of Telomerase to Telomeres.

The Shelterin TIN2 Subunit Mediates Recruitment of Telomerase to Telomeres.

Dyskeratosis Congenita (DC) is a heritable multi-system disorder caused by abnormally short telomeres. Clinically diagnosed by the mucocutaneous symptoms, DC patients are at high risk for bone marrow failure, pulmonary fibrosis, and multiple types of cancers. We have recapitulated the most common DC...

Full description

Bibliographic Details
Main Authors: Amanda K Frank, Duy C Tran, Roy W Qu, Bradley A Stohr, David J Segal, Lifeng Xu
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2015-07-01
Series:PLoS Genetics
Online Access:http://europepmc.org/articles/PMC4521702?pdf=render
id doaj-4390749426e6402ab16d30e7681edb18
record_format Article
spelling doaj-4390749426e6402ab16d30e7681edb182020-11-24T21:51:08ZengPublic Library of Science (PLoS)PLoS Genetics1553-73901553-74042015-07-01117e100541010.1371/journal.pgen.1005410The Shelterin TIN2 Subunit Mediates Recruitment of Telomerase to Telomeres.Amanda K FrankDuy C TranRoy W QuBradley A StohrDavid J SegalLifeng XuDyskeratosis Congenita (DC) is a heritable multi-system disorder caused by abnormally short telomeres. Clinically diagnosed by the mucocutaneous symptoms, DC patients are at high risk for bone marrow failure, pulmonary fibrosis, and multiple types of cancers. We have recapitulated the most common DC-causing mutation in the shelterin component TIN2 by introducing a TIN2-R282H mutation into cultured telomerase-positive human cells via a knock-in approach. The resulting heterozygous TIN2-R282H mutation does not perturb occupancy of other shelterin components on telomeres, result in activation of telomeric DNA damage signaling or exhibit other characteristics indicative of a telomere deprotection defect. Using a novel assay that monitors the frequency and extension rate of telomerase activity at individual telomeres, we show instead that telomerase elongates telomeres at a reduced frequency in TIN2-R282H heterozygous cells; this recruitment defect is further corroborated by examining the effect of this mutation on telomerase-telomere co-localization. These observations suggest a direct role for TIN2 in mediating telomere length through telomerase, separable from its role in telomere protection.http://europepmc.org/articles/PMC4521702?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Amanda K Frank
Duy C Tran
Roy W Qu
Bradley A Stohr
David J Segal
Lifeng Xu
spellingShingle Amanda K Frank
Duy C Tran
Roy W Qu
Bradley A Stohr
David J Segal
Lifeng Xu
The Shelterin TIN2 Subunit Mediates Recruitment of Telomerase to Telomeres.
PLoS Genetics
author_facet Amanda K Frank
Duy C Tran
Roy W Qu
Bradley A Stohr
David J Segal
Lifeng Xu
author_sort Amanda K Frank
title The Shelterin TIN2 Subunit Mediates Recruitment of Telomerase to Telomeres.
title_short The Shelterin TIN2 Subunit Mediates Recruitment of Telomerase to Telomeres.
title_full The Shelterin TIN2 Subunit Mediates Recruitment of Telomerase to Telomeres.
title_fullStr The Shelterin TIN2 Subunit Mediates Recruitment of Telomerase to Telomeres.
title_full_unstemmed The Shelterin TIN2 Subunit Mediates Recruitment of Telomerase to Telomeres.
title_sort shelterin tin2 subunit mediates recruitment of telomerase to telomeres.
publisher Public Library of Science (PLoS)
series PLoS Genetics
issn 1553-7390
1553-7404
publishDate 2015-07-01
description Dyskeratosis Congenita (DC) is a heritable multi-system disorder caused by abnormally short telomeres. Clinically diagnosed by the mucocutaneous symptoms, DC patients are at high risk for bone marrow failure, pulmonary fibrosis, and multiple types of cancers. We have recapitulated the most common DC-causing mutation in the shelterin component TIN2 by introducing a TIN2-R282H mutation into cultured telomerase-positive human cells via a knock-in approach. The resulting heterozygous TIN2-R282H mutation does not perturb occupancy of other shelterin components on telomeres, result in activation of telomeric DNA damage signaling or exhibit other characteristics indicative of a telomere deprotection defect. Using a novel assay that monitors the frequency and extension rate of telomerase activity at individual telomeres, we show instead that telomerase elongates telomeres at a reduced frequency in TIN2-R282H heterozygous cells; this recruitment defect is further corroborated by examining the effect of this mutation on telomerase-telomere co-localization. These observations suggest a direct role for TIN2 in mediating telomere length through telomerase, separable from its role in telomere protection.
url http://europepmc.org/articles/PMC4521702?pdf=render
work_keys_str_mv AT amandakfrank theshelterintin2subunitmediatesrecruitmentoftelomerasetotelomeres
AT duyctran theshelterintin2subunitmediatesrecruitmentoftelomerasetotelomeres
AT roywqu theshelterintin2subunitmediatesrecruitmentoftelomerasetotelomeres
AT bradleyastohr theshelterintin2subunitmediatesrecruitmentoftelomerasetotelomeres
AT davidjsegal theshelterintin2subunitmediatesrecruitmentoftelomerasetotelomeres
AT lifengxu theshelterintin2subunitmediatesrecruitmentoftelomerasetotelomeres
AT amandakfrank shelterintin2subunitmediatesrecruitmentoftelomerasetotelomeres
AT duyctran shelterintin2subunitmediatesrecruitmentoftelomerasetotelomeres
AT roywqu shelterintin2subunitmediatesrecruitmentoftelomerasetotelomeres
AT bradleyastohr shelterintin2subunitmediatesrecruitmentoftelomerasetotelomeres
AT davidjsegal shelterintin2subunitmediatesrecruitmentoftelomerasetotelomeres
AT lifengxu shelterintin2subunitmediatesrecruitmentoftelomerasetotelomeres
_version_ 1725880260520574976

Similar Items