Synonymous Mutation in DKC1 Causes Telomerase RNA Insufficiency Manifesting As Familial Pulmonary Fibrosis

Overview

Journal Chest

Publisher Elsevier

Specialty Pulmonary Medicine

Date 2020 Jul 26

PMID 32710892

Citations 19

Authors

Valeriya Gaysinskaya

Susan E Stanley

Soheir Adam

Mary Armanios

Affiliations

Soon will be listed here.

Abstract

Background: Idiopathic pulmonary fibrosis (IPF) is the most common of short telomere phenotypes. Familial clustering of IPF is common, but the genetic basis remains unknown in more than one-half of cases. We identified a 65-year-old man with familial IPF, short telomere length, and low telomerase RNA levels. He was diagnosed with a short telomere syndrome after developing hematologic complications post-lung transplantation, but no mutations were identified in a clinical testing pipeline.

Research Question: What is the molecular basis underlying the familial IPF and low telomerase RNA levels in this patient?

Study Design And Methods: We analyzed whole-genome sequence data and performed functional molecular studies on cells derived from the patient and his family.

Results: We identified a previously unreported synonymous variant c.942G>A p.K314K in DKC1, the gene encoding the dyskerin ribonucleoprotein, which is required for telomerase RNA biogenesis. The mutation created a competing de novo exonic splicing enhancer, and the misspliced product was degraded by nonsense-mediated decay causing an overall dyskerin deficiency in mutation carriers. In silico tools identified other rare silent DKC1 variants that warrant functional evaluation if found in patients with short telomere-mediated disease.

Interpretation: Our data point to silent mutation in telomere maintenance genes as a mechanism of familial pulmonary fibrosis. In contrast to DKC1 missense mutations, which primarily manifest in children as dyskeratosis congenita, hypomorphic mutations affecting dyskerin levels likely have a predilection to presenting in adults as pulmonary fibrosis.

Citing Articles

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Bridges J, Vladar E, Kurche J, Krivoi A, Stancil I, Dobrinskikh E J Clin Invest. 2025; 135(1).

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Impaired telomere pathway and fertility in Senescence-Accelerated Mice Prone 8 females with reproductive senescence.

Polonio A, Medrano M, Chico-Sordo L, Cordova-Oriz I, Cozzolino M, Montans J Aging (Albany NY). 2023; 15(11):4600-4624.

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