Exome sequencing links mutations in PARN and RTEL1 with familial pulmonary fibrosis and telomere shortening

Bridget D. Stuart; Jungmin Choi; Samir Zaidi; Chao Xing; Brody Holohan; Rui Chen; Mihwa Choi; Pooja Dharwadkar; Fernando Torres; Carlos E. Girod; Jonathan Weissler; John Fitzgerald; Corey Kershaw; Julia Klesney-Tait; Yolanda Mageto; Jerry W. Shay; Weizhen Ji; Kaya Bilguvar; Shrikant Mane; Richard P. Lifton; Christine Kim Garcia

doi:10.1038/ng.3278

Exome sequencing links mutations in PARN and RTEL1 with familial pulmonary fibrosis and telomere shortening

Bridget D. Stuart, Jungmin Choi, Samir Zaidi, Chao Xing, Brody Holohan, Rui Chen, Mihwa Choi, Pooja Dharwadkar, Fernando Torres, Carlos E. Girod, Jonathan Weissler, John Fitzgerald, Corey Kershaw, Julia Klesney-Tait, Yolanda Mageto, Jerry W. Shay, Weizhen Ji, Kaya Bilguvar, Shrikant Mane, Richard P. LiftonChristine Kim Garcia

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Abstract

Idiopathic pulmonary fibrosis (IPF) is an age-related disease featuring progressive lung scarring. To elucidate the molecular basis of IPF, we performed exome sequencing of familial kindreds with pulmonary fibrosis. Gene burden analysis comparing 78 European cases and 2,816 controls implicated PARN, an exoribonuclease with no previous connection to telomere biology or disease, with five new heterozygous damaging mutations in unrelated cases and none in controls (P = 1.3 × 10 -8); mutations were shared by all affected relatives (odds in favor of linkage = 4,096:1). RTEL1, an established locus for dyskeratosis congenita, harbored significantly more new damaging and missense variants at conserved residues in cases than in controls (P = 1.6 × 10 -6). PARN and RTEL1 mutation carriers had shortened leukocyte telomere lengths, and we observed epigenetic inheritance of short telomeres in family members. Together, these genes explain â 1/47% of familial pulmonary fibrosis and strengthen the link between lung fibrosis and telomere dysfunction.

Original language	English (US)
Pages (from-to)	512-517
Number of pages	6
Journal	Nature genetics
Volume	47
Issue number	5
DOIs	https://doi.org/10.1038/ng.3278
State	Published - May 30 2015

ASJC Scopus subject areas

Genetics

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Stuart, B. D., Choi, J., Zaidi, S., Xing, C., Holohan, B., Chen, R., Choi, M., Dharwadkar, P., Torres, F., Girod, C. E., Weissler, J., Fitzgerald, J., Kershaw, C., Klesney-Tait, J., Mageto, Y., Shay, J. W., Ji, W., Bilguvar, K., Mane, S., ... Garcia, C. K. (2015). Exome sequencing links mutations in PARN and RTEL1 with familial pulmonary fibrosis and telomere shortening. Nature genetics, 47(5), 512-517. https://doi.org/10.1038/ng.3278

Stuart, BD, Choi, J, Zaidi, S, Xing, C, Holohan, B, Chen, R, Choi, M, Dharwadkar, P, Torres, F , Girod, CE , Weissler, J , Fitzgerald, J , Kershaw, C, Klesney-Tait, J, Mageto, Y, Shay, JW, Ji, W, Bilguvar, K, Mane, S, Lifton, RP & Garcia, CK 2015, 'Exome sequencing links mutations in PARN and RTEL1 with familial pulmonary fibrosis and telomere shortening', Nature genetics, vol. 47, no. 5, pp. 512-517. https://doi.org/10.1038/ng.3278

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title = "Exome sequencing links mutations in PARN and RTEL1 with familial pulmonary fibrosis and telomere shortening",

abstract = "Idiopathic pulmonary fibrosis (IPF) is an age-related disease featuring progressive lung scarring. To elucidate the molecular basis of IPF, we performed exome sequencing of familial kindreds with pulmonary fibrosis. Gene burden analysis comparing 78 European cases and 2,816 controls implicated PARN, an exoribonuclease with no previous connection to telomere biology or disease, with five new heterozygous damaging mutations in unrelated cases and none in controls (P = 1.3 × 10 -8); mutations were shared by all affected relatives (odds in favor of linkage = 4,096:1). RTEL1, an established locus for dyskeratosis congenita, harbored significantly more new damaging and missense variants at conserved residues in cases than in controls (P = 1.6 × 10 -6). PARN and RTEL1 mutation carriers had shortened leukocyte telomere lengths, and we observed epigenetic inheritance of short telomeres in family members. Together, these genes explain {\^a} 1/47% of familial pulmonary fibrosis and strengthen the link between lung fibrosis and telomere dysfunction.",

author = "Stuart, {Bridget D.} and Jungmin Choi and Samir Zaidi and Chao Xing and Brody Holohan and Rui Chen and Mihwa Choi and Pooja Dharwadkar and Fernando Torres and Girod, {Carlos E.} and Jonathan Weissler and John Fitzgerald and Corey Kershaw and Julia Klesney-Tait and Yolanda Mageto and Shay, {Jerry W.} and Weizhen Ji and Kaya Bilguvar and Shrikant Mane and Lifton, {Richard P.} and Garcia, {Christine Kim}",

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Exome sequencing links mutations in PARN and RTEL1 with familial pulmonary fibrosis and telomere shortening

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