Heritability of Lung Function: A Twin Study Among Never-Smoking Elderly Women

Maria Hukkinen; Jaakko Kaprio; Ulla Broms; Anne Viljanen; Daniel Kotz; Taina Rantanen; Tellervo Korhonen

doi:10.1375/twin.14.5.401

Abstract

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Most studies on lung function heritability have been conducted in smokers and non-smokers using cross-sectional study design. Smoking patterns may, however, confound the contribution of genetic factors. We investigated heritability of forced expiratory volume in one second (FEV1), forced vital capacity (FVC), and FEV1/FVC ratio longitudinally, excluding the effects of smoking. A sample of never smoking female twins (n = 374), aged 63–76 at baseline, answered health questionnaires and attended spirometry in years 2000 and 2003. Bivariate structural equation modeling, restricted to adequate spirometry performances (baseline n = 339, follow-up n = 252), was used to estimate genetic and environmental influences on consecutive measurements of FEV1, FVC, and FEV1/FVC. The best-fitting models included additive genetic and non-shared environmental effects. Heritability estimates of 32% and 36% for FEV1, 41% and 37% for FVC, while 46% and 16% for FEV1/FVC were found at baseline and at follow-up. Genetic correlation between FEV1 and FEV1/FVC heritability estimates approached unity, whereas correlation between FVC estimates was 0.80. Environmental correlations were 0.69 for FEV1, 0.62 for FVC, and 0.07 for FEV1/FVC. In never smokers, additive genetic and non-shared environmental effects explain the inter-individual variations in FEV1, FVC, and FEV1/FVC. One third of the variation in FEV1 and FVC is explained by genetic and two thirds by environmental effects. Between 2000 and 2003, environmental effects on FEV1/FVC changed, and the proportion of variance explained by environmental effects increased remarkably. Genetic effects on FEV1 and FEV1/FVC are common to consecutive measurements, whereas at follow-up, new genetic factors explained 14% of the observed variance in FVC.

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Tarnoki, David Laszlo Tarnoki, Adam Domonkos Lazar, Zsofia Medda, Emanuela Littvay, Levente Cotichini, Rodolfo Fagnani, Corrado Stazi, Maria Antonietta Nisticó, Lorenza Lucatelli, Pierleone Boatta, Emanuele Zini, Chiara Fanelli, Fabrizio Baracchini, Claudio Meneghetti, Giorgio Jermendy, Gyorgy Préda, István Kiss, Róbert Gábor Karlinger, Kinga Lannert, Agnes Schillaci, Giuseppe Molnar, Andrea Agnes Garami, Zsolt Berczi, Viktor and Horvath, Ildiko 2013. Genetic and environmental factors on the relation of lung function and arterial stiffness. Respiratory Medicine, Vol. 107, Issue. 6, p. 927.

Vasilopoulos, Terrie Grant, Michael D. Franz, Carol E. Panizzon, Matthew S. Xian, Hong Toomey, Rosemary Lyons, Michael J. Kremen, William S. and Jacobson, Kristen C. 2013. Shared and Distinct Genetic Influences Among Different Measures of Pulmonary Function. Behavior Genetics, Vol. 43, Issue. 2, p. 141.

Mangino, Massimo 2014. Genomics of ageing in twins. Proceedings of the Nutrition Society, Vol. 73, Issue. 4, p. 526.

Kim, Woo Jin Lee, Mi Kyeong Shin, Chol Cho, Nam Han Lee, Sang Do Oh, Yeon‐Mok and Sung, Joohon 2014. Genome‐wide association studies identify locus on 6p21 influencing lung function in the Korean population. Respirology, Vol. 19, Issue. 3, p. 360.

Foebel, Andrea D. and Pedersen, Nancy L. 2016. Genetic Influences on Functional Capacities in Aging. The Gerontologist, Vol. 56, Issue. Suppl 2, p. S218.

McGeachie, Michael J. Clemmer, George L. Croteau‐Chonka, Damien C. Castaldi, Peter J. Cho, Michael H. Sordillo, Joanne E. Lasky‐Su, Jessica A. Raby, Benjamin A. Tantisira, Kelan G. and Weiss, Scott T. 2016. Whole genome prediction and heritability of childhood asthma phenotypes. Immunity, Inflammation and Disease, Vol. 4, Issue. 4, p. 487.

Sillanpää, Elina Sipilä, Sarianna Törmäkangas, Timo Kaprio, Jaakko and Rantanen, Taina 2016. Genetic and Environmental Effects on Telomere Length and Lung Function: A Twin Study. The Journals of Gerontology Series A: Biological Sciences and Medical Sciences, p. glw178.

Kheirallah, A.K. Miller, S. Hall, I.P. and Sayers, I. 2016. Vol. 93, Issue. , p. 57.

CrossRef

Reynolds, Chandra A. and Finkel, Deborah G. 2016. Handbook of the Psychology of Aging. p. 125.

Obeidat, Ma'en Li, Xuan Burgess, Stephen Zhou, Guohai Fishbane, Nick Hansel, Nadia N. Bossé, Yohan Joubert, Philippe Hao, Ke Nickle, David C. van den Berge, Maarten Timens, Wim Cho, Michael H. Hobbs, Brian D. de Jong, Kim Boezen, Marike Hung, Rayjean J. Rafaels, Nicholas Mathias, Rasika Ruczinski, Ingo Beaty, Terri H. Barnes, Kathleen C. Paré, Peter D. and Sin, Don D. 2017. Surfactant protein D is a causal risk factor for COPD: results of Mendelian randomisation. European Respiratory Journal, Vol. 50, Issue. 5, p. 1700657.

Busch, Robert Cho, Michael H and Silverman, Edwin K 2017. Progress in disease progression genetics: dissecting the genetic origins of lung function decline in COPD. Thorax, Vol. 72, Issue. 5, p. 389.

Burney, Peter 2017. Chronic respiratory disease – the acceptable epidemic?. Clinical Medicine, Vol. 17, Issue. 1, p. 29.

Tian, Xiaocao Xu, Chunsheng Wu, Yili Sun, Jianping Duan, Haiping Zhang, Dongfeng Jiang, Baofa Pang, Zengchang Li, Shuxia and Tan, Qihua 2017. Genetic and Environmental Influences on Pulmonary Function and Muscle Strength: The Chinese Twin Study of Aging. Twin Research and Human Genetics, Vol. 20, Issue. 1, p. 53.

Collaco, Joseph M. Appel, Lawrence J. McGready, John Cutting, Garry R. and Vij, Neeraj 2018. The relationship of lung function with ambient temperature. PLOS ONE, Vol. 13, Issue. 1, p. e0191409.

Hall, Robert Hall, Ian P. and Sayers, Ian 2019. Genetic risk factors for the development of pulmonary disease identified by genome‐wide association. Respirology, Vol. 24, Issue. 3, p. 204.

Williams, Paul T. 2020. Spirometric traits show quantile-dependent heritability, which may contribute to their gene-environment interactions with smoking and pollution. PeerJ, Vol. 8, Issue. , p. e9145.

Ramírez-Venegas, Alejandra Montiel-Lopez, Francisco Falfan-Valencia, Ramces Pérez-Rubio, Gloria and Sansores, Raúl H 2021. The “Slow Horse Racing Effect” on Lung Function in Adult Life in Chronic Obstructive Pulmonary Disease Associated to Biomass Exposure. Frontiers in Medicine, Vol. 8, Issue. ,

Tarnoki, Adam D. Willemsen, Gonneke de Geus, Eco and Tarnoki, David L. 2022. Twin Research for Everyone. p. 403.

Cao, Suzhen Li, Sai Duan, Xiaoli Zhang, Yaqun Gong, Jicheng Guo, Qian Xu, Xiangyu Peng, Li and Meng, Xin 2023. Environmental and Behavioral Factors in Association with Lung Function Impairment in Children Living in Wuhan, China. International Journal of Environmental Research and Public Health, Vol. 20, Issue. 2, p. 1134.

Baugh, Aaron Buhr, Russell G. Bush, Andrew Foreman, Marilyn and Mannino, David M. 2024. Strategies to Classify Lung Function: It’s Not Black and White. American Journal of Respiratory and Critical Care Medicine, Vol. 209, Issue. 1, p. 19.

Article contents

Heritability of Lung Function: A Twin Study Among Never-Smoking Elderly Women

Abstract

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This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Article contents

Heritability of Lung Function: A Twin Study Among Never-Smoking Elderly Women

Abstract

Keywords

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