Abstract
Polygenic scores are increasingly powerful predictors of educational achievement. It is unclear, however, how sets of polygenic scores, which partly capture environmental effects, perform jointly with sets of environmental measures, which are themselves heritable, in prediction models of educational achievement. Here, for the first time, we systematically investigate gene-environment correlation (rGE) and interaction (GxE) in the joint analysis of multiple genome-wide polygenic scores (GPS) and multiple environmental measures as they predict tested educational achievement (EA). We predict EA in a representative sample of 7,026 16-year-olds, with 20 GPS for psychiatric, cognitive and anthropometric traits, and 13 environments (including life events, home environment, and SES) measured earlier in life. Environmental and GPS predictors were modelled, separately and jointly, in penalized regression models with out-of-sample comparisons of prediction accuracy, considering the implications that their interplay had on model performance. Jointly modelling multiple GPS and environmental factors significantly improved prediction of EA, with cognitive-related GPS adding unique independent information beyond SES, home environment and life events. We found evidence for rGE underlying variation in EA (rGE = .38; 95% CIs = .30, .45). We estimated that 40% (95% CIs = 31%, 50%) of the polygenic scores effects on EA were mediated by environmental effects, and in turn that 18% (95% CIs = 12%, 25%) of environmental effects were accounted for by the polygenic model, indicating genetic confounding. Lastly, we did not find evidence that GxE effects significantly contributed to multivariable prediction. Our multivariable polygenic and environmental prediction model suggests widespread rGE and unsystematic GxE contributions to EA in adolescence.
Highlights
Education is compulsory in most countries because it provides children with the skills, such as literacy and numeracy, that are essential for successfully participating in society
Our study investigates the complex interplay between genetic and environmental contributions underlying educational achievement (EA)
Requests for the data used in this study should be made to the Twins Early Development Study (TEDS), and is not subject to the general TEDS data access policy: http://www.teds.ac.uk/researchers/teds-dataaccess-policy
Summary
Education is compulsory in most countries because it provides children with the skills, such as literacy and numeracy, that are essential for successfully participating in society. Quantitative genetic research based on twin studies showed that EA is 60% heritable throughout the school years [2, 3] These studies suggested that about 20% of the variance of EA and other learning-related traits can be ascribed to shared environmental factors, for example growing up in the same family and going to the same school. Passive rGE results from the inheritance of both genetic propensities and environments linked to parental genotypes. Individuals with stronger genetic predispositions to educational attainment tend to grow up in higher socioeconomic status families [6]. Active rGE results from individuals actively selecting environments that are linked to their genetic propensity; for example, individuals with a higher genetic predisposition to educational attainment tend to migrate to economically prosperous regions that offer greater educational opportunities [8]
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