Abstract
Human longevity correlates with socio-economic status, and there is evidence that educational attainment increases human lifespan. However, to inform meaningful health policies, we need fine-grained causal evidence on which dimensions of socio-economic status affect longevity and the mediating roles of modifiable factors such as lifestyle and disease. Here we performed two-sample Mendelian randomization analyses applying genetic instruments of education, income and occupation (n = 248,847 to 1,131,881) to estimate their causal effects and consequences on parental lifespan and self-longevity (n = 28,967 to 1,012,240) from the largest available genome-wide association studies in populations of European ancestry. Each 4.20 years of additional educational attainment were causally associated with a 3.23-year-longer parental lifespan independently of income and occupation and were causally associated with 30–59% higher odds of self-longevity, suggesting that education was the primary determinant. By contrast, each one-standard-deviation-higher income and one-point-higher occupation was causally associated with 3.06-year-longer and 1.29-year-longer parental lifespans, respectively, but not independently of the other socio-economic indicators. We found no evidence for causal effects of income or occupation on self-longevity. Mediation analyses conducted in predominantly European-descent individuals through two-step Mendelian randomization suggested that among 59 candidates, cigarettes per day, body mass index, waist-to-hip ratio, hypertension, coronary heart disease, myocardial infarction, stroke, Alzheimer’s disease, type 2 diabetes, heart failure and lung cancer individually played substantial mediating roles (proportion mediated, >10%) in the effect of education on specific longevity outcomes. These findings inform interventions for remediating longevity disparities attributable to socio-economic inequality.
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Data availability
All GWAS summary statistics analysed in this study are publicly available for download by qualified researchers as shown in Table 1. The GWAS data for education can be obtained through the SSGAC data portal (http://www.thessgac.org/data). The GWAS data for income can be obtained at https://gwas.mrcieu.ac.uk/datasets/?trait__icontains=Household%20income. The GWAS data for occupation can be obtained from the GWAS catalogue (http://ftp.ebi.ac.uk/pub/databases/gwas/summary_statistics/GCST90102001-GCST90103000/GCST90102253/). The GWAS data for parental lifespan can be obtained at https://doi.org/10.7488/ds/2463. The GWAS data for self-longevity can be obtained at https://www.longevitygenomics.org/downloads and through GRASP (https://grasp.nhlbi.nih.gov/FullResults.aspx) and the NHGRI-EBI GWAS Catalog (https://www.ebi.ac.uk/gwas/downloads/summary-statistics). All data generated in the current study can be obtained from the Supplementary Information.
Code availability
All the analyses used in this study were conducted using the R packages TwoSampleMR (version 0.5.6), MVMR (version 0.3), MRPRESSO (version 1.0) and MRlap (version 0.0.3.0) in R software (version 4.0.3; R Development Core Team). Custom code that supports the findings of this study is available at https://github.com/yechaojie/2SMR.
References
van den Berg, N., Beekman, M., Smith, K. R., Janssens, A. & Slagboom, P. E. Historical demography and longevity genetics: back to the future. Ageing Res. Rev. 38, 28–39 (2017).
Stringhini, S. et al. Association of socioeconomic position with health behaviors and mortality. JAMA 303, 1159–1166 (2010).
Pappas, G., Queen, S., Hadden, W. & Fisher, G. The increasing disparity in mortality between socioeconomic groups in the United States, 1960 and 1986. N. Engl. J. Med. 329, 103–109 (1993).
Bosworth, B. Increasing disparities in mortality by socioeconomic status. Annu. Rev. Public Health 39, 237–251 (2018).
Krieger, N., Williams, D. R. & Moss, N. E. Measuring social class in US public health research: concepts, methodologies, and guidelines. Annu. Rev. Public Health 18, 341–378 (1997).
Braveman, P. A., Cubbin, C., Egerter, S., Williams, D. R. & Pamuk, E. Socioeconomic disparities in health in the United States: what the patterns tell us. Am. J. Public Health 100, S186–S196 (2010).
Mackenbach, J. P. et al. Socioeconomic inequalities in health in 22 European countries. N. Engl. J. Med. 358, 2468–2481 (2008).
Mackenbach, J. P. et al. Changes in mortality inequalities over two decades: register based study of European countries. Br. Med. J. 353, i1732 (2016).
Sekula, P., Del Greco M, F., Pattaro, C. & Köttgen, A. Mendelian randomization as an approach to assess causality using observational data. J. Am. Soc. Nephrol. 27, 3253–3265 (2016).
Huang, S. Y. et al. Investigating causal relationships between exposome and human longevity: a Mendelian randomization analysis. BMC Med. 19, 150 (2021).
van Oort, S., Beulens, J. W. J., van Ballegooijen, A. J., Burgess, S. & Larsson, S. C. Cardiovascular risk factors and lifestyle behaviours in relation to longevity: a Mendelian randomization study. J. Intern. Med. 289, 232–243 (2021).
Wilson, R. S. et al. Education and cognitive reserve in old age. Neurology 92, e1041–e1050 (2019).
Wang, D. et al. Association between socioeconomic status and health behaviour change before and after non-communicable disease diagnoses: a multicohort study. Lancet Public Health 7, e670–e682 (2022).
Allen, L. et al. Socioeconomic status and non-communicable disease behavioural risk factors in low-income and lower-middle-income countries: a systematic review. Lancet Public Health 5, e277–e289 (2017).
Rosengren, A. et al. Socioeconomic status and risk of cardiovascular disease in 20 low-income, middle-income, and high-income countries: the Prospective Urban Rural Epidemiologic (PURE) study. Lancet Glob. Health 7, e748–e760 (2019).
Hill-Briggs, F. et al. Social determinants of health and diabetes: a scientific review. Diabetes Care 44, 258–279 (2020).
Cadar, D. et al. Individual and area-based socioeconomic factors associated with dementia incidence in England: evidence from a 12-year follow-up in the English Longitudinal Study of Ageing. JAMA Psychiatry 75, 723–732 (2018).
Roth, G. A. et al. Demographic and epidemiologic drivers of global cardiovascular mortality. N. Engl. J. Med. 372, 1333–1341 (2015).
GBD 2017 Causes of Death Collaborators. Global, regional, and national age–sex-specific mortality for 282 causes of death in 195 countries and territories, 1980–2017: a systematic analysis for the Global Burden of Disease Study 2017. Lancet 392, 1736–1788 (2018).
Emdin, C. A., Khera, A. V. & Kathiresan, S. Mendelian randomization. JAMA 318, 1925–1926 (2017).
Carter, A. R. et al. Mendelian randomisation for mediation analysis: current methods and challenges for implementation. Eur. J. Epidemiol. 36, 465–478 (2021).
Glei, D. A., Lee, C. & Weinstein, M. Assessment of mortality disparities by wealth relative to other measures of socioeconomic status among US adults. JAMA Netw. Open 5, e226547 (2022).
Zajacova, A. & Lawrence, E. M. The relationship between education and health: reducing disparities through a contextual approach. Annu. Rev. Public Health 39, 273–289 (2018).
Mackenbach, J. P. et al. Determinants of inequalities in life expectancy: an international comparative study of eight risk factors. Lancet Public Health 4, e529–e537 (2019).
Wang, C. et al. Association of estimated sleep duration and naps with mortality and cardiovascular events: a study of 116 632 people from 21 countries. Eur. Heart J. 40, 1620–1629 (2019).
Marmot, M. G., Rose, G., Shipley, M. J. & Thomas, B. J. Alcohol and mortality: a U-shaped curve. Lancet 1, 580–583 (1981).
Liu, D. et al. Association of sugar-sweetened, artificially sweetened, and unsweetened coffee consumption with all-cause and cause-specific mortality: a large prospective cohort study. Ann. Intern. Med. 175, 909–917 (2022).
Klimentidis, Y. C. et al. Genome-wide association study of habitual physical activity in over 377,000 UK Biobank participants identifies multiple variants including CADM2 and APOE. Int J. Obes. 42, 1161–1176 (2018).
Doherty, A. et al. GWAS identifies 14 loci for device-measured physical activity and sleep duration. Nat. Commun. 9, 5257 (2018).
Fontana, L. & Partridge, L. Promoting health and longevity through diet: from model organisms to humans. Cell 161, 106–118 (2015).
Firth, J., Gangwisch, J. E., Borisini, A., Wootton, R. E. & Mayer, E. A. Food and mood: how do diet and nutrition affect mental wellbeing? Br. Med. J. 369, m2382 (2020).
Zhang, J. et al. Mediators of the association between educational attainment and type 2 diabetes mellitus: a two-step multivariable Mendelian randomisation study. Diabetologia 65, 1364–1374 (2022).
Joshi, P. K. et al. Genome-wide meta-analysis associates HLA-DQA1/DRB1 and LPA and lifestyle factors with human longevity. Nat. Commun. 8, 910 (2017).
Roth, G. A. et al. Global, regional, and national burden of cardiovascular diseases for 10 causes, 1990 to 2015. J. Am. Coll. Cardiol. 70, 1–25 (2017).
Yusuf, S. et al. Modifiable risk factors, cardiovascular disease, and mortality in 155 722 individuals from 21 high-income, middle-income, and low-income countries (PURE): a prospective cohort study. Lancet 395, 795–808 (2020).
Carter, A. R. et al. Understanding the consequences of education inequality on cardiovascular disease: Mendelian randomisation study. Br. Med. J. 365, l1855 (2019).
Wang, Y. et al. Independent associations of education, intelligence, and cognition with hypertension and the mediating effects of cardiometabolic risk factors: a Mendelian randomization study. Hypertension 80, 192–203 (2023).
Chang, C. H. et al. Interactive effect of cigarette smoking with human 8-oxoguanine DNA N-glycosylase 1 (hOGG1) polymorphisms on the risk of lung cancer: a case-control study in Taiwan. Am. J. Epidemiol. 170, 695–702 (2009).
Yang, Y., Wang, M. & Liu, B. Exploring and comparing of the gene expression and methylation differences between lung adenocarcinoma and squamous cell carcinoma. J. Cell. Physiol. 234, 4454–4459 (2019).
Chen, F. et al. Mendelian randomization analyses of 23 known and suspected risk factors and biomarkers for breast cancer overall and by molecular subtypes. Int. J. Cancer 151, 372–380 (2022).
Friedman, E. M. & Mare, R. D. The schooling of offspring and the survival of parents. Demography 51, 1271–1293 (2014).
Nyberg, S. T. et al. Association of healthy lifestyle with years lived without major chronic diseases. JAMA Intern. Med. 180, 760–768 (2020).
Zhao, W. et al. Identification of new susceptibility loci for type 2 diabetes and shared etiological pathways with coronary heart disease. Nat. Genet. 49, 1450–1457 (2017).
Fuller, R. et al. Pollution and health: a progress update. Lancet Planet. Health 6, e535–e547 (2022).
Skrivankova, V. W. et al. Strengthening the reporting of observational studies in epidemiology using Mendelian randomization: the STROBE-MR Statement. JAMA 326, 1614–1621 (2021).
Lee, J. J. et al. Gene discovery and polygenic prediction from a genome-wide association study of educational attainment in 1.1 million individuals. Nat. Genet. 50, 1112–1121 (2018).
Mitchell, R. E. et al. MRC IEU UK Biobank GWAS Pipeline Version 2 (University of Bristol, 2019); https://doi.org/10.5523/bris.pnoat8cxo0u52p6ynfaekeigi
Ko, H. et al. Genome-wide association study of occupational attainment as a proxy for cognitive reserve. Brain 145, 1436–1448 (2022).
Timmers, P. R. et al. Genomics of 1 million parent lifespans implicates novel pathways and common diseases and distinguishes survival chances. eLife 8, e39856 (2019).
Deelen, J. et al. A meta-analysis of genome-wide association studies identifies multiple longevity genes. Nat. Commun. 10, 3669 (2019).
Machiela, M. J. & Chanock, S. J. LDlink: a web-based application for exploring population-specific haplotype structure and linking correlated alleles of possible functional variants. Bioinformatics 31, 3555–3557 (2015).
Burgess, S., Davies, N. M. & Thompson, S. G. Bias due to participant overlap in two-sample Mendelian randomization. Genet. Epidemiol. 40, 597–608 (2016).
Burgess, S. et al. Guidelines for performing Mendelian randomization investigations. Wellcome Open Res. 4, 186 (2020).
Davey Smith, G., Sheehan, N. & Thompson, J. A framework for the investigation of pleiotropy in two-sample summary data Mendelian randomization. Stat. Med. 36, 1783–1802 (2017).
MacKinnon, D. P., Lockwood, C. M., Hoffman, J. M., West, S. G. & Sheets, V. A comparison of methods to test mediation and other intervening variable effects. Psychol. Methods 7, 83–104 (2002).
Bowden, J., Davey Smith, G., Haycock, P. C. & Burgess, S. Consistent estimation in Mendelian randomization with some invalid instruments using a weighted median estimator. Genet. Epidemiol. 40, 304–314 (2016).
Hartwig, F. P., Davey Smith, G. & Bowden, J. Robust inference in summary data Mendelian randomization via the zero modal pleiotropy assumption. Int. J. Epidemiol. 46, 1985–1998 (2017).
Bowden, J., Davey Smith, G. & Burgess, S. Mendelian randomization with invalid instruments: effect estimation and bias detection through Egger regression. Int. J. Epidemiol. 44, 512–525 (2015).
Verbanck, M., Chen, C. Y., Neale, B. & Do, R. Detection of widespread horizontal pleiotropy in causal relationships inferred from Mendelian randomization between complex traits and diseases. Nat. Genet. 50, 693–698 (2018).
Mounier, N. & Kutalik, Z. Bias correction for inverse variance weighting Mendelian randomization. Genet. Epidemiol. 47, 314–331 (2023).
Acknowledgements
This work was supported by grants from the National Natural Science Foundation of China (nos 82022011, 81970706, 82088102 and 81970728), the ‘Shanghai Municipal Education Commission–Gaofeng Clinical Medicine Grant Support’ from Shanghai Jiao Tong University School of Medicine (no. 20171901 Round 2) and the Innovative Research Team of High-Level Local Universities in Shanghai. The funders had no role in study design, data collection and analysis, decision to publish or preparation of the manuscript. We thank the participants in all the GWASs used in this manuscript and the investigators who made these GWAS data publicly available.
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C.-J.Y. and T.-G.W. contributed to the conception and design of the study. C.-J.Y. performed the statistical analysis and drafted the manuscript. T.-G.W. critically revised the manuscript and checked the statistical analysis. T.-G.W., Y.-F.B., W.-Q.W. and G.N. obtained the funding. All authors contributed to the acquisition or interpretation of data, proofreading of the manuscript for important intellectual content and the final approval of the version to be published. T.-G.W. is the guarantor of this work and takes responsibility for the integrity of the data and the accuracy of the data analysis.
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Ye, CJ., Kong, LJ., Wang, YY. et al. Mendelian randomization evidence for the causal effects of socio-economic inequality on human longevity among Europeans. Nat Hum Behav 7, 1357–1370 (2023). https://doi.org/10.1038/s41562-023-01646-1
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DOI: https://doi.org/10.1038/s41562-023-01646-1
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