TY - JOUR
T1 - Using genetic variation to disentangle the complex relationship between food intake and health outcomes
AU - Pirastu, Nicola
AU - McDonnell, C
AU - Grzeszkowiak, Eryk Jan
AU - Mounier, Ninon
AU - Imamura, Fumiaki
AU - Jordi Merino, PhD
AU - Day, Felix
AU - Zheng, Jie
AU - Taba, Nele
AU - concas, maria pina
AU - Repetto, Linda
AU - Kentistou, Katherine
AU - Robino, Antonietta
AU - Esko, Tõnu
AU - Joshi, Peter
AU - Fischer, Krista
AU - Ong, Ken
AU - Gaunt, Tom
AU - Kutalik, Z
AU - Perry, JRB
AU - Wilson, James F
PY - 2022
Y1 - 2022
N2 - Diet is considered as one of the most important modifiable factors influencing human health, but efforts to identify foods or dietary patterns associated with health outcomes often suffer from biases, confounding, and reverse causation. Applying Mendelian randomization in this context may provide evidence to strengthen causality in nutrition research. To this end, we first identified 283 genetic markers associated with dietary intake in 445,779 UK Biobank participants. We then converted these associations into direct genetic effects on food exposures by adjusting them for effects mediated via other traits. The SNPs which did not show evidence of mediation were then used for MR, assessing the association between genetically predicted food choices and other risk factors, health outcomes. We show that using all associated SNPs without omitting those which show evidence of mediation, leads to biases in downstream analyses (genetic correlations, causal inference), similar to those present in observational studies. However, MR analyses using SNPs which have only a direct effect on the exposure on food exposures provided unequivocal evidence of causal associations between specific eating patterns and obesity, blood lipid status, and several other risk factors and health outcomes.
AB - Diet is considered as one of the most important modifiable factors influencing human health, but efforts to identify foods or dietary patterns associated with health outcomes often suffer from biases, confounding, and reverse causation. Applying Mendelian randomization in this context may provide evidence to strengthen causality in nutrition research. To this end, we first identified 283 genetic markers associated with dietary intake in 445,779 UK Biobank participants. We then converted these associations into direct genetic effects on food exposures by adjusting them for effects mediated via other traits. The SNPs which did not show evidence of mediation were then used for MR, assessing the association between genetically predicted food choices and other risk factors, health outcomes. We show that using all associated SNPs without omitting those which show evidence of mediation, leads to biases in downstream analyses (genetic correlations, causal inference), similar to those present in observational studies. However, MR analyses using SNPs which have only a direct effect on the exposure on food exposures provided unequivocal evidence of causal associations between specific eating patterns and obesity, blood lipid status, and several other risk factors and health outcomes.
U2 - 10.1371/journal.pgen.1010162
DO - 10.1371/journal.pgen.1010162
M3 - Journal article
C2 - 35653391
VL - 18
JO - P L o S Genetics
JF - P L o S Genetics
SN - 1553-7390
IS - 6
M1 - e1010162
ER -