Imre Noth1, Yingze Zhang1, Shwu-Fan Ma1, Dan Nicolae1, Naftali Kaminski1, Joe G N Garcia1, Carlos Flores1, Mathew Barber1, Yong Huang1, Steven M Broderick1, Michael S Wade1, Pirro Hysi1, Joseph Scuirba1, Thomas J Richards1, Brenda M Juan-Guardela1, Rekha Vij1, MeiLan K Han1, Fernando J Martinez1, Karl Kossen1, Scott D Seiwert1, Jason D Christie1. 1. Section of Pulmonary and Critical Care Medicine (Prof I Noth MD, S-F Ma PhD, M Barber PhD, Y Huang MS, S M Broderick BS, R Vij MD) and Section of Genetic Medicine (Prof D Nicolae PhD), University of Chicago, Chicago, IL, USA; Dorothy P and Richard P Simmons Center for Interstitial Lung Disease, Division of Pulmonary, Allergy and Critical Care Medicine, University of Pittsburgh, Pittsburgh, PA, USA (Y Zhang PhD, J Scuirba BS, T J Richards PhD, B M Juan-Guardela MD, Prof N Kaminski MD); CIBER de Enfermedades Respiratorias, Instituto de Salud Carlos III, Madrid, Spain (C Flores PhD); Research Unit, Hospital Universitario Nuestra Señora de Candelaria, Tenerife, Spain (C Flores); Institute for Personalized Respiratory Medicine, University of Illinois at Chicago, Chicago, IL, USA (M S Wade MS, Prof J G N Garcia MD); Department of Twin Research and Genetic Epidemiology, King's College London, London, UK (P Hysi PhD); Division of Pulmonary and Critical Care Medicine, University of Michigan, Ann Arbor, MI, USA (M K Han MD, Prof F J Martinez MD); InterMune, Brisbane, CA, USA (K Kossen PhD, S D Seiwert PhD); and Pulmonary, Allergy and Critical Care Division, University of Pennsylvania Medical Center, Pennsylvania, PA, USA (J D Christie MD).
Abstract
BACKGROUND: Idiopathic pulmonary fibrosis (IPF) is a devastating disease that probably involves several genetic loci. Several rare genetic variants and one common single nucleotide polymorphism (SNP) of MUC5B have been associated with the disease. Our aim was to identify additional common variants associated with susceptibility and ultimately mortality in IPF. METHODS: First, we did a three-stage genome-wide association study (GWAS): stage one was a discovery GWAS; and stages two and three were independent case-control studies. DNA samples from European-American patients with IPF meeting standard criteria were obtained from several US centres for each stage. Data for European-American control individuals for stage one were gathered from the database of genotypes and phenotypes; additional control individuals were recruited at the University of Pittsburgh to increase the number. For controls in stages two and three, we gathered data for additional sex-matched European-American control individuals who had been recruited in another study. DNA samples from patients and from control individuals were genotyped to identify SNPs associated with IPF. SNPs identified in stage one were carried forward to stage two, and those that achieved genome-wide significance (p<5 × 10(-8)) in a meta-analysis were carried forward to stage three. Three case series with follow-up data were selected from stages one and two of the GWAS using samples with follow-up data. Mortality analyses were done in these case series to assess the SNPs associated with IPF that had achieved genome-wide significance in the meta-analysis of stages one and two. Finally, we obtained gene-expression profiling data for lungs of patients with IPF from the Lung Genomics Research Consortium and analysed correlation with SNP genotypes. FINDINGS: In stage one of the GWAS (542 patients with IPF, 542 control individuals matched one-by-one to cases by genetic ancestry estimates), we identified 20 loci. Six SNPs reached genome-wide significance in stage two (544 patients, 687 control individuals): three TOLLIP SNPs (rs111521887, rs5743894, rs5743890) and one MUC5B SNP (rs35705950) at 11p15.5; one MDGA2 SNP (rs7144383) at 14q21.3; and one SPPL2C SNP (rs17690703) at 17q21.31. Stage three (324 patients, 702 control individuals) confirmed the associations for all these SNPs, except for rs7144383. Linkage disequilibrium between the MUC5B SNP (rs35705950) and TOLLIP SNPs (rs111521887 [r(2)=0·07], rs5743894 [r(2)=0·16], and rs5743890 [r(2)=0·01]) was low. 683 patients from the GWAS were included in the mortality analysis. Individuals who developed IPF despite having the protective TOLLIP minor allele of rs5743890 carried an increased mortality risk (meta-analysis with fixed-effect model: hazard ratio 1·72 [95% CI 1·24-2·38]; p=0·0012). TOLLIP expression was decreased by 20% in individuals carrying the minor allele of rs5743890 (p=0·097), 40% in those with the minor allele of rs111521887 (p=3·0 × 10(-4)), and 50% in those with the minor allele of rs5743894 (p=2·93 × 10(-5)) compared with homozygous carriers of common alleles for these SNPs. INTERPRETATION: Novel variants in TOLLIP and SPPL2C are associated with IPF susceptibility. One novel variant of TOLLIP, rs5743890, is also associated with mortality. These associations and the reduced expression of TOLLIP in patients with IPF who carry TOLLIP SNPs emphasise the importance of this gene in the disease. FUNDING: National Institutes of Health; National Heart, Lung, and Blood Institute; Pulmonary Fibrosis Foundation; Coalition for Pulmonary Fibrosis; and Instituto de Salud Carlos III.
BACKGROUND:Idiopathic pulmonary fibrosis (IPF) is a devastating disease that probably involves several genetic loci. Several rare genetic variants and one common single nucleotide polymorphism (SNP) of MUC5B have been associated with the disease. Our aim was to identify additional common variants associated with susceptibility and ultimately mortality in IPF. METHODS: First, we did a three-stage genome-wide association study (GWAS): stage one was a discovery GWAS; and stages two and three were independent case-control studies. DNA samples from European-American patients with IPF meeting standard criteria were obtained from several US centres for each stage. Data for European-American control individuals for stage one were gathered from the database of genotypes and phenotypes; additional control individuals were recruited at the University of Pittsburgh to increase the number. For controls in stages two and three, we gathered data for additional sex-matched European-American control individuals who had been recruited in another study. DNA samples from patients and from control individuals were genotyped to identify SNPs associated with IPF. SNPs identified in stage one were carried forward to stage two, and those that achieved genome-wide significance (p<5 × 10(-8)) in a meta-analysis were carried forward to stage three. Three case series with follow-up data were selected from stages one and two of the GWAS using samples with follow-up data. Mortality analyses were done in these case series to assess the SNPs associated with IPF that had achieved genome-wide significance in the meta-analysis of stages one and two. Finally, we obtained gene-expression profiling data for lungs of patients with IPF from the Lung Genomics Research Consortium and analysed correlation with SNP genotypes. FINDINGS: In stage one of the GWAS (542 patients with IPF, 542 control individuals matched one-by-one to cases by genetic ancestry estimates), we identified 20 loci. Six SNPs reached genome-wide significance in stage two (544 patients, 687 control individuals): three TOLLIP SNPs (rs111521887, rs5743894, rs5743890) and one MUC5B SNP (rs35705950) at 11p15.5; one MDGA2 SNP (rs7144383) at 14q21.3; and one SPPL2C SNP (rs17690703) at 17q21.31. Stage three (324 patients, 702 control individuals) confirmed the associations for all these SNPs, except for rs7144383. Linkage disequilibrium between the MUC5B SNP (rs35705950) and TOLLIP SNPs (rs111521887 [r(2)=0·07], rs5743894 [r(2)=0·16], and rs5743890 [r(2)=0·01]) was low. 683 patients from the GWAS were included in the mortality analysis. Individuals who developed IPF despite having the protective TOLLIP minor allele of rs5743890 carried an increased mortality risk (meta-analysis with fixed-effect model: hazard ratio 1·72 [95% CI 1·24-2·38]; p=0·0012). TOLLIP expression was decreased by 20% in individuals carrying the minor allele of rs5743890 (p=0·097), 40% in those with the minor allele of rs111521887 (p=3·0 × 10(-4)), and 50% in those with the minor allele of rs5743894 (p=2·93 × 10(-5)) compared with homozygous carriers of common alleles for these SNPs. INTERPRETATION: Novel variants in TOLLIP and SPPL2C are associated with IPF susceptibility. One novel variant of TOLLIP, rs5743890, is also associated with mortality. These associations and the reduced expression of TOLLIP in patients with IPF who carry TOLLIP SNPs emphasise the importance of this gene in the disease. FUNDING: National Institutes of Health; National Heart, Lung, and Blood Institute; Pulmonary Fibrosis Foundation; Coalition for Pulmonary Fibrosis; and Instituto de Salud Carlos III.
Authors: Ganesh Raghu; Harold R Collard; Jim J Egan; Fernando J Martinez; Juergen Behr; Kevin K Brown; Thomas V Colby; Jean-François Cordier; Kevin R Flaherty; Joseph A Lasky; David A Lynch; Jay H Ryu; Jeffrey J Swigris; Athol U Wells; Julio Ancochea; Demosthenes Bouros; Carlos Carvalho; Ulrich Costabel; Masahito Ebina; David M Hansell; Takeshi Johkoh; Dong Soon Kim; Talmadge E King; Yasuhiro Kondoh; Jeffrey Myers; Nestor L Müller; Andrew G Nicholson; Luca Richeldi; Moisés Selman; Rosalind F Dudden; Barbara S Griss; Shandra L Protzko; Holger J Schünemann Journal: Am J Respir Crit Care Med Date: 2011-03-15 Impact factor: 21.405
Authors: Steven D Nathan; Oksana A Shlobin; Nargues Weir; Shahzad Ahmad; Julienne M Kaldjob; Edwinia Battle; Michael J Sheridan; Roland M du Bois Journal: Chest Date: 2011-07 Impact factor: 9.410
Authors: David J Lederer; Steven M Kawut; Nancy Wickersham; Christopher Winterbottom; Sangeeta Bhorade; Scott M Palmer; James Lee; Joshua M Diamond; Keith M Wille; Ann Weinacker; Vibha N Lama; Maria Crespo; Jonathan B Orens; Joshua R Sonett; Selim M Arcasoy; Lorraine B Ware; Jason D Christie Journal: Am J Respir Crit Care Med Date: 2011-11-01 Impact factor: 21.405
Authors: Max A Seibold; Anastasia L Wise; Marcy C Speer; Mark P Steele; Kevin K Brown; James E Loyd; Tasha E Fingerlin; Weiming Zhang; Gunnar Gudmundsson; Steve D Groshong; Christopher M Evans; Stavros Garantziotis; Kenneth B Adler; Burton F Dickey; Roland M du Bois; Ivana V Yang; Aretha Herron; Dolly Kervitsky; Janet L Talbert; Cheryl Markin; Joungjoa Park; Anne L Crews; Susan H Slifer; Scott Auerbach; Michelle G Roy; Jia Lin; Corinne E Hennessy; Marvin I Schwarz; David A Schwartz Journal: N Engl J Med Date: 2011-04-21 Impact factor: 91.245
Authors: Glenda Trujillo; Alessia Meneghin; Kevin R Flaherty; Lynette M Sholl; Jeffrey L Myers; Ella A Kazerooni; Barry H Gross; Sameer R Oak; Ana Lucia Coelho; Holly Evanoff; Elizabeth Day; Galen B Toews; Amrita D Joshi; Matthew A Schaller; Beatrice Waters; Gabor Jarai; John Westwick; Steven L Kunkel; Fernando J Martinez; Cory M Hogaboam Journal: Sci Transl Med Date: 2010-11-10 Impact factor: 17.956
Authors: Michael C Zody; Manuel Garber; David J Adams; Ted Sharpe; Jennifer Harrow; James R Lupski; Christine Nicholson; Steven M Searle; Laurens Wilming; Sarah K Young; Amr Abouelleil; Nicole R Allen; Weimin Bi; Toby Bloom; Mark L Borowsky; Boris E Bugalter; Jonathan Butler; Jean L Chang; Chao-Kung Chen; April Cook; Benjamin Corum; Christina A Cuomo; Pieter J de Jong; David DeCaprio; Ken Dewar; Michael FitzGerald; James Gilbert; Richard Gibson; Sante Gnerre; Steven Goldstein; Darren V Grafham; Russell Grocock; Nabil Hafez; Daniel S Hagopian; Elizabeth Hart; Catherine Hosage Norman; Sean Humphray; David B Jaffe; Matt Jones; Michael Kamal; Varsha K Khodiyar; Kurt LaButti; Gavin Laird; Jessica Lehoczky; Xiaohong Liu; Tashi Lokyitsang; Jane Loveland; Annie Lui; Pendexter Macdonald; John E Major; Lucy Matthews; Evan Mauceli; Steven A McCarroll; Atanas H Mihalev; Jonathan Mudge; Cindy Nguyen; Robert Nicol; Sinéad B O'Leary; Kazutoyo Osoegawa; David C Schwartz; Charles Shaw-Smith; Pawel Stankiewicz; Charles Steward; David Swarbreck; Vijay Venkataraman; Charles A Whittaker; Xiaoping Yang; Andrew R Zimmer; Allan Bradley; Tim Hubbard; Bruce W Birren; Jane Rogers; Eric S Lander; Chad Nusbaum Journal: Nature Date: 2006-04-20 Impact factor: 49.962
Authors: Louis Dagneaux; Aaron R Owen; Jacob W Bettencourt; Jonathan D Barlow; Peter C Amadio; Jean P Kocher; Mark E Morrey; Joaquin Sanchez-Sotelo; Daniel J Berry; Andre J van Wijnen; Matthew P Abdel Journal: J Arthroplasty Date: 2020-06-04 Impact factor: 4.757
Authors: Dru D Claar; Emma K Larkin; Lisa Bastarache; Timothy S Blackwell; James E Loyd; Tina V Hartert; Joshua C Denny; Jonathan A Kropski Journal: Am J Respir Crit Care Med Date: 2016-01-01 Impact factor: 21.405
Authors: Long Shuang Huang; Biji Mathew; Haiquan Li; Yutong Zhao; Shwu-Fan Ma; Imre Noth; Sekhar P Reddy; Anantha Harijith; Peter V Usatyuk; Evgeny V Berdyshev; Naftali Kaminski; Tong Zhou; Wei Zhang; Yanmin Zhang; Jalees Rehman; Sainath R Kotha; Travis O Gurney; Narasimham L Parinandi; Yves A Lussier; Joe G N Garcia; Viswanathan Natarajan Journal: Am J Respir Crit Care Med Date: 2014-06-01 Impact factor: 21.405
Authors: Rongrong Wei; Chong Li; Min Zhang; Yava L Jones-Hall; Jamie L Myers; Imre Noth; Wanqing Liu Journal: Transl Res Date: 2013-12-17 Impact factor: 7.012