Active telomere elongation by a subclass of cancer-associated POT1 mutations

Annika Martin; Johannes Schabort; Rebecca Bartke-Croughan; Stella Tran; Atul Preetham; Robert Lu; Richard Ho; Jianpu Gao; Shirin Jenkins; John Boyle; George E. Ghanim; Milind Jagota; Yun S. Song; Hanqin Li; Dirk Hockemeyer

doi:10.1101/gad.352492.124

Active telomere elongation by a subclass of cancer-associated POT1 mutations

Annika Martin, Johannes Schabort, Rebecca Bartke-Croughan, Stella Tran, Atul Preetham, Robert Lu, Richard Ho, Jianpu Gao, Shirin Jenkins, John Boyle, George E. Ghanim, Milind Jagota, Yun S. Song, Hanqin Li, Dirk Hockemeyer

Research output: Contribution to journal › Article › peer-review

Abstract

Mutations in the shelterin protein POT1 are associated with diverse cancers and thought to drive carcinogenesis by impairing POT1’s suppression of aberrant telomere elongation. To classify clinical variants of uncertain significance (VUSs) and identify cancer-driving loss-of-function mutations, we developed a locally haploid human stem cell system to evaluate >1900 POT1 mutations, including >600 VUSs. Unexpectedly, many validated familial cancer-associated POT1 (caPOT1) mutations are haplosufficient for cellular viability, indicating that some pathogenic alleles do not act through a loss-of-function mechanism. Instead, POT1’s DNA damage response suppression and telomere length control are genetically separable. ATR inhibition enables isolation of frameshift mutants, demonstrating that the only essential function of POT1 is to repress ATR. Furthermore, comparison of caPOT1 and frameshift alleles reveals a class of caPOT1 mutations that elongate telomeres more rapidly than full loss-of-function alleles. This telomere length-promoting activity is independent from POT1’s role in overhang sequestration and fill-in synthesis.

Original language	English (US)
Pages (from-to)	445-462
Number of pages	18
Journal	Genes and Development
Volume	39
Issue number	7-8
DOIs	https://doi.org/10.1101/gad.352492.124
State	Published - Apr 1 2025
Externally published	Yes

All Science Journal Classification (ASJC) codes

General Medicine

Keywords

POT1
cancer
deep scanning mutagenesis
pluripotent stem cells
telomerase
telomere

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title = "Active telomere elongation by a subclass of cancer-associated POT1 mutations",

abstract = "Mutations in the shelterin protein POT1 are associated with diverse cancers and thought to drive carcinogenesis by impairing POT1{\textquoteright}s suppression of aberrant telomere elongation. To classify clinical variants of uncertain significance (VUSs) and identify cancer-driving loss-of-function mutations, we developed a locally haploid human stem cell system to evaluate >1900 POT1 mutations, including >600 VUSs. Unexpectedly, many validated familial cancer-associated POT1 (caPOT1) mutations are haplosufficient for cellular viability, indicating that some pathogenic alleles do not act through a loss-of-function mechanism. Instead, POT1{\textquoteright}s DNA damage response suppression and telomere length control are genetically separable. ATR inhibition enables isolation of frameshift mutants, demonstrating that the only essential function of POT1 is to repress ATR. Furthermore, comparison of caPOT1 and frameshift alleles reveals a class of caPOT1 mutations that elongate telomeres more rapidly than full loss-of-function alleles. This telomere length-promoting activity is independent from POT1{\textquoteright}s role in overhang sequestration and fill-in synthesis.",

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author = "Annika Martin and Johannes Schabort and Rebecca Bartke-Croughan and Stella Tran and Atul Preetham and Robert Lu and Richard Ho and Jianpu Gao and Shirin Jenkins and John Boyle and Ghanim, {George E.} and Milind Jagota and Song, {Yun S.} and Hanqin Li and Dirk Hockemeyer",

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T1 - Active telomere elongation by a subclass of cancer-associated POT1 mutations

AU - Martin, Annika

AU - Schabort, Johannes

AU - Bartke-Croughan, Rebecca

AU - Tran, Stella

AU - Preetham, Atul

AU - Lu, Robert

AU - Ho, Richard

AU - Gao, Jianpu

AU - Jenkins, Shirin

AU - Boyle, John

AU - Ghanim, George E.

AU - Jagota, Milind

AU - Song, Yun S.

AU - Li, Hanqin

AU - Hockemeyer, Dirk

PY - 2025/4/1

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N2 - Mutations in the shelterin protein POT1 are associated with diverse cancers and thought to drive carcinogenesis by impairing POT1’s suppression of aberrant telomere elongation. To classify clinical variants of uncertain significance (VUSs) and identify cancer-driving loss-of-function mutations, we developed a locally haploid human stem cell system to evaluate >1900 POT1 mutations, including >600 VUSs. Unexpectedly, many validated familial cancer-associated POT1 (caPOT1) mutations are haplosufficient for cellular viability, indicating that some pathogenic alleles do not act through a loss-of-function mechanism. Instead, POT1’s DNA damage response suppression and telomere length control are genetically separable. ATR inhibition enables isolation of frameshift mutants, demonstrating that the only essential function of POT1 is to repress ATR. Furthermore, comparison of caPOT1 and frameshift alleles reveals a class of caPOT1 mutations that elongate telomeres more rapidly than full loss-of-function alleles. This telomere length-promoting activity is independent from POT1’s role in overhang sequestration and fill-in synthesis.

AB - Mutations in the shelterin protein POT1 are associated with diverse cancers and thought to drive carcinogenesis by impairing POT1’s suppression of aberrant telomere elongation. To classify clinical variants of uncertain significance (VUSs) and identify cancer-driving loss-of-function mutations, we developed a locally haploid human stem cell system to evaluate >1900 POT1 mutations, including >600 VUSs. Unexpectedly, many validated familial cancer-associated POT1 (caPOT1) mutations are haplosufficient for cellular viability, indicating that some pathogenic alleles do not act through a loss-of-function mechanism. Instead, POT1’s DNA damage response suppression and telomere length control are genetically separable. ATR inhibition enables isolation of frameshift mutants, demonstrating that the only essential function of POT1 is to repress ATR. Furthermore, comparison of caPOT1 and frameshift alleles reveals a class of caPOT1 mutations that elongate telomeres more rapidly than full loss-of-function alleles. This telomere length-promoting activity is independent from POT1’s role in overhang sequestration and fill-in synthesis.

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Active telomere elongation by a subclass of cancer-associated POT1 mutations

Abstract

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