<i>Tractor</i>: A framework allowing for improved inclusion of admixed individuals in large-scale association studies

Atkinson, Elizabeth G.; Ax, Maihofer; Kanai, Masahiro; Ar, Martin; Kj, Karczewski; Santoro, Marcelo Larami; Ulirsch, Jacob C.; Kamatani, Yoichiro; Okada, Yukinori; Hk, Finucane; Kc, Koenen; Nievergelt, Caroline M.; Daly, Mark J.; Bm, Neale

doi:10.1101/2020.05.17.100727

Cited by 10 publications

(7 citation statements)

References 113 publications

(14 reference statements)

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“…Although we have shown that this approach improved the prediction in both African and admixed American populations, indicating that PRS-CSx is robust to imperfectly matched LD reference panels, future work is needed to better model summary statistics from recently admixed populations. One promising direction is to characterize and incorporate local ancestries in PRS construction using ancestry-specific effect size estimates 33,34 . The Bayesian modeling framework of PRS-CSx and the flexibility of continuous shrinkage priors also allow for the incorporation of functional annotations and fine-mapping results into PRS construction to improve the portability of PRS, as shown by recent studies 35 .…”

Section: Discussionmentioning

confidence: 99%

Improving polygenic prediction in ancestrally diverse populations

et al. 2022

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Polygenic risk scores (PRS) have attenuated cross-population predictive performance. As existing genomewide association studies (GWAS) were predominantly conducted in individuals of European descent, the limited transferability of PRS reduces its clinical value in non-European populations and may exacerbate healthcare disparities. Recent efforts to level ancestry imbalance in genomic research have expanded the scale of non-European GWAS, although they remain under-powered. Here we present a novel PRS construction method, PRS-CSx, which improves cross-population polygenic prediction by integrating GWAS summary statistics from multiple populations. PRS-CSx couples genetic effects across populations via a shared continuous shrinkage prior, enabling more accurate effect size estimation by sharing information between summary statistics and leveraging linkage disequilibrium (LD) diversity across discovery samples, while inheriting computational efficiency and robustness from PRS-CS. We show that PRS-CSx outperforms alternative methods across traits with a wide range of genetic architectures and cross-population genetic correlations in simulations, and substantially improves the prediction of quantitative traits and schizophrenia risk in non-European populations.

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Section: Discussionmentioning

confidence: 99%

Improving polygenic prediction in ancestrally diverse populations

et al. 2022

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“…Since the genomes of admixed individuals are a mosaic of segments with different ancestral origins, a first step would be to get ancestry‐specific effect size estimates and P ‐values from training GWASs, which is often not available from publicly available summary statistics. If individual‐level training GWAS data is available, recently developed methods like Tractor (Atkinson et al, 2020) could be applied to obtain ancestry‐specific summary statistics by generating ancestry dosage at each site from local ancestry inference calls and running a local ancestry‐aware regression. Similarly, for the validation data, local ancestry haplotype dosage for each person at each variant need to be estimated and weighted by the ancestry‐specific effect size estimated in the previous step to allow the generation of “ancestry‐specific” PRSs.…”

Section: Discussionmentioning

confidence: 99%

Incorporating European GWAS findings improve polygenic risk prediction accuracy of breast cancer among East Asians

Long

Kweon

et al. 2021

Genetic Epidemiology

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Previous genome‐wide association studies (GWASs) have been largely focused on European (EUR) populations. However, polygenic risk scores (PRSs) derived from EUR have been shown to perform worse in non‐EURs compared with EURs. In this study, we aim to improve PRS prediction in East Asians (EASs). We introduce a rescaled meta‐analysis framework to combine both EUR (N = 122,175) and EAS (N = 30,801) GWAS summary statistics. To improve PRS prediction in EASs, we use a scaling factor to up‐weight the EAS data, such that the resulting effect size estimates are more relevant to EASs. We then derive PRSs for EAS from the rescaled meta‐analysis results of EAS and EUR data. Evaluated in an independent EAS validation data set, this approach increases the prediction liability‐adjusted Nagelkerke's pseudo R2 by 40%, 41%, and 5%, respectively, compared with PRSs derived from an EAS GWAS only, EUR GWAS only, and conventional fixed‐effects meta‐analysis of EAS and EUR data. The PRS derived from the rescaled meta‐analysis approach achieved an area under the receiver operating characteristic curve (AUC) of 0.6059, higher than AUC = 0.5782, 0.5809, 0.6008 for EAS, EUR, and conventional meta‐analysis of EAS and EUR. We further compare PRSs constructed by single‐nucleotide polymorphisms that have different linkage disequilibrium (LD) scores and minor allele frequencies (MAFs) between EUR and EAS, and observe that lower LD scores or MAF in EAS correspond to poorer PRS performance (AUC = 0.5677, 0.5530, respectively) than higher LD scores or MAF (AUC = 0.589, 0.5993, respectively). We finally build a PRS stratified by LD score differences in EUR and EAS using rescaled meta‐analysis, and obtain an AUC of 0.6096, with improvement over other strategies investigated.

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“…The overrepresentation of EA participants in GWAS is partly because admixed populations were long considered inconvenient in gene discovery studies, as this led to population stratification issues. However, due to advances in GWAS methods, populations with mixed genetic backgrounds can now be included in GWAS to obtain accurate estimates of SNP effects, boost power, and improve fine-mapping of effects by leveraging linkage disequilibrium differences (Asimit et al 2016;Atkinson et al 2020). Beside the general benefits to gene discovery studies, the inclusion of diverse genetic backgrounds will improve our understanding of genetic liability across diverse populations, as demonstrated for example in a study of glycemic traits (Chen et al 2021), where 30% of the participants were of non-European ancestry.…”

Section: Discussionmentioning

confidence: 99%

Continuity of Genetic Risk for Aggressive Behavior Across the Life-Course

Morosoli

Weijer

Ip³

et al. 2021

Behav Genet

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We test whether genetic influences that explain individual differences in aggression in early life also explain individual differences across the life-course. In two cohorts from The Netherlands (N = 13,471) and Australia (N = 5628), polygenic scores (PGSs) were computed based on a genome-wide meta-analysis of childhood/adolescence aggression. In a novel analytic approach, we ran a mixed effects model for each age (Netherlands: 12–70 years, Australia: 16–73 years), with observations at the focus age weighted as 1, and decaying weights for ages further away. We call this approach a ‘rolling weights’ model. In The Netherlands, the estimated effect of the PGS was relatively similar from age 12 to age 41, and decreased from age 41–70. In Australia, there was a peak in the effect of the PGS around age 40 years. These results are a first indication from a molecular genetics perspective that genetic influences on aggressive behavior that are expressed in childhood continue to play a role later in life.

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Tractor: A framework allowing for improved inclusion of admixed individuals in large-scale association studies

Cited by 10 publications

References 113 publications

Improving polygenic prediction in ancestrally diverse populations

Improving polygenic prediction in ancestrally diverse populations

Incorporating European GWAS findings improve polygenic risk prediction accuracy of breast cancer among East Asians

Continuity of Genetic Risk for Aggressive Behavior Across the Life-Course

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