Showing total 7 results

1. Stacked neural network for predicting polygenic risk score.

Author

Kim, Sun bin, Kang, Joon Ho, Cheon, MyeongJae, Kim, Dong Jun, and Lee, Byung-Chul

Subjects

GENETIC risk score, ARTIFICIAL neural networks, GENOME-wide association studies, GENETIC variation, DISEASE susceptibility, BREAST

Abstract

In recent years, the utility of polygenic risk scores (PRS) in forecasting disease susceptibility from genome-wide association studies (GWAS) results has been widely recognised. Yet, these models face limitations due to overfitting and the potential overestimation of effect sizes in correlated variants. To surmount these obstacles, we devised the Stacked Neural Network Polygenic Risk Score (SNPRS). This novel approach synthesises outputs from multiple neural network models, each calibrated using genetic variants chosen based on diverse p-value thresholds. By doing so, SNPRS captures a broader array of genetic variants, enabling a more nuanced interpretation of the combined effects of these variants. We assessed the efficacy of SNPRS using the UK Biobank data, focusing on the genetic risks associated with breast and prostate cancers, as well as quantitative traits like height and BMI. We also extended our analysis to the Korea Genome and Epidemiology Study (KoGES) dataset. Impressively, our results indicate that SNPRS surpasses traditional PRS models and an isolated deep neural network in terms of accuracy, highlighting its promise in refining the efficacy and relevance of PRS in genetic studies. [ABSTRACT FROM AUTHOR]

Published

2024

2. Life course plasma metabolomic signatures of genetic liability to Alzheimer's disease.

Author

Compton, Hannah, Smith, Madeleine L., Bull, Caroline, Korologou-Linden, Roxanna, Ben-Shlomo, Yoav, Bell, Joshua A., Williams, Dylan M., and Anderson, Emma L.

Subjects

ALZHEIMER'S disease, APOLIPOPROTEIN E, APOLIPOPROTEIN E4, METABOLOMICS, GENETIC risk score, AGE groups, CONTRAST effect, GENETIC variation

Abstract

Mechanisms through which most known Alzheimer's disease (AD) loci operate to increase AD risk remain unclear. Although Apolipoprotein E (APOE) is known to regulate lipid homeostasis, the effects of broader AD genetic liability on non-lipid metabolites remain unknown, and the earliest ages at which metabolic perturbations occur and how these change over time are yet to be elucidated. We examined the effects of AD genetic liability on the plasma metabolome across the life course. Using a reverse Mendelian randomization framework in two population-based cohorts [Avon Longitudinal Study of Parents and Children (ALSPAC, n = 5648) and UK Biobank (n ≤ 118,466)], we estimated the effects of genetic liability to AD on 229 plasma metabolites, at seven different life stages, spanning 8 to 73 years. We also compared the specific effects of APOE ε4 and APOE ε2 carriage on metabolites. In ALSPAC, AD genetic liability demonstrated the strongest positive associations with cholesterol-related traits, with similar magnitudes of association observed across all age groups including in childhood. In UK Biobank, the effect of AD liability on several lipid traits decreased with age. Fatty acid metabolites demonstrated positive associations with AD liability in both cohorts, though with smaller magnitudes than lipid traits. Sensitivity analyses indicated that observed effects are largely driven by the strongest AD instrument, APOE, with many contrasting effects observed on lipids and fatty acids for both ε4 and ε2 carriage. Our findings indicate pronounced effects of the ε4 and ε2 genetic variants on both pro- and anti-atherogenic lipid traits and sphingomyelins, which begin in childhood and either persist into later life or appear to change dynamically. [ABSTRACT FROM AUTHOR]

Published

2024

3. Mechanosensitive ion channel gene survey suggests potential roles in primary open angle glaucoma.

Author

Liu, Wendy W., Kinzy, Tyler G., Cooke Bailey, Jessica N., Xu, Zihe, Hysi, Pirro, Wiggs, Janey L., NEIGHBORHOOD Consortium, Allingham, R. Rand, Brilliant, Murray, Budenz, Donald L., Fingert, John H., Gaasterland, Douglas, Gaasterland, Teresa, Haines, Jonathan L., Hauser, Michael A., Lee, Richard K., Lichter, Paul R., Liu, Yutao, Moroi, Syoko, and Myers, Jonathan

Subjects

ION channels, OPEN-angle glaucoma, TRP channels, SINGLE nucleotide polymorphisms, GENETIC variation, GENE frequency

Abstract

Although glaucoma is a disease modulated by eye pressure, the mechanisms of pressure sensing in the eye are not well understood. Here, we investigated associations between mechanosensitive ion channel gene variants and primary open-angle glaucoma (POAG). Common (minor allele frequency > 5%) single nucleotide polymorphisms located within the genomic regions of 20 mechanosensitive ion channel genes in the K2P, TMEM63, PIEZO and TRP channel families were assessed using genotype data from the NEIGHBORHOOD consortium of 3853 cases and 33,480 controls. Rare (minor allele frequency < 1%) coding variants were assessed using exome array genotyping data for 2606 cases and 2606 controls. Association with POAG was analyzed using logistic regression adjusting for age and sex. Two rare PIEZO1 coding variants with protective effects were identified in the NEIGHBOR dataset: R1527H, (OR 0.17, P = 0.0018) and a variant that alters a canonical splice donor site, g.16-88737727-C-G Hg38 (OR 0.38, P = 0.02). Both variants showed similar effects in the UK Biobank and the R1527H also in the FinnGen database. Several common variants also reached study-specific thresholds for association in the NEIGHBORHOOD dataset. These results identify novel variants in several mechanosensitive channel genes that show associations with POAG, suggesting that these channels may be potential therapeutic targets. [ABSTRACT FROM AUTHOR]

Published

2023

4. A clustering linear combination method for multiple phenotype association studies based on GWAS summary statistics.

Author

Wang, Meida, Cao, Xuewei, Zhang, Shuanglin, and Sha, Qiuying

Subjects

GENOME-wide association studies, FALSE positive error, GENETIC variation, PHENOTYPES, MUSCULOSKELETAL system, STATISTICAL power analysis, CONNECTIVE tissues

Abstract

There is strong evidence showing that joint analysis of multiple phenotypes in genome-wide association studies (GWAS) can increase statistical power when detecting the association between genetic variants and human complex diseases. We previously developed the Clustering Linear Combination (CLC) method and a computationally efficient CLC (ceCLC) method to test the association between multiple phenotypes and a genetic variant, which perform very well. However, both of these methods require individual-level genotypes and phenotypes that are often not easily accessible. In this research, we develop a novel method called sCLC for association studies of multiple phenotypes and a genetic variant based on GWAS summary statistics. We use the LD score regression to estimate the correlation matrix among phenotypes. The test statistic of sCLC is constructed by GWAS summary statistics and has an approximate Cauchy distribution. We perform a variety of simulation studies and compare sCLC with other commonly used methods for multiple phenotype association studies using GWAS summary statistics. Simulation results show that sCLC can control Type I error rates well and has the highest power in most scenarios. Moreover, we apply the newly developed method to the UK Biobank GWAS summary statistics from the XIII category with 70 related musculoskeletal system and connective tissue phenotypes. The results demonstrate that sCLC detects the most number of significant SNPs, and most of these identified SNPs can be matched to genes that have been reported in the GWAS catalog to be associated with those phenotypes. Furthermore, sCLC also identifies some novel signals that were missed by standard GWAS, which provide new insight into the potential genetic factors of the musculoskeletal system and connective tissue phenotypes. [ABSTRACT FROM AUTHOR]

Published

2023

5. Leveraging deep phenotyping from health check-up cohort with 10,000 Korean individuals for phenome-wide association study of 136 traits.

Author

Choe, Eun Kyung, Shivakumar, Manu, Verma, Anurag, Verma, Shefali Setia, Choi, Seung Ho, Kim, Joo Sung, and Kim, Dokyoon

Subjects

KOREANS, GENETIC variation, JAPANESE people, CAUSAL inference, NOSOLOGY, RANDOMIZATION (Statistics)

Abstract

The expanding use of the phenome-wide association study (PheWAS) faces challenges in the context of using International Classification of Diseases billing codes for phenotype definition, imbalanced study population ethnicity, and constrained application of the results in research. We performed a PheWAS utilizing 136 deep phenotypes corroborated by comprehensive health check-ups in a Korean population, along with trans-ethnic comparisons through using the UK Biobank and Biobank Japan Project. Meta-analysis with Korean and Japanese population was done. The PheWAS associated 65 phenotypes with 14,101 significant variants (P < 4.92 × 10–10). Network analysis, visualization of cross-phenotype mapping, and causal inference mapping with Mendelian randomization were conducted. Among phenotype pairs from the genotype-driven cross-phenotype associations, we evaluated penetrance in correlation analysis using a clinical database. We focused on the application of PheWAS in order to make it robust and to aid the derivation of biological meaning post-PheWAS. This comprehensive analysis of PheWAS results based on a health check-up database will provide researchers and clinicians with a panoramic overview of the networks among multiple phenotypes and genetic variants, laying groundwork for the practical application of precision medicine. [ABSTRACT FROM AUTHOR]

Published

2022

6. Genetic determinants of liking and intake of coffee and other bitter foods and beverages.

Author

Cornelis, Marilyn C. and van Dam, Rob M.

Subjects

GENOME-wide association studies, ENERGY drinks, COFFEE drinks, GENETIC variation, TASTE perception, BITTERNESS (Taste), COFFEE

Abstract

Coffee is a widely consumed beverage that is naturally bitter and contains caffeine. Genome-wide association studies (GWAS) of coffee drinking have identified genetic variants involved in caffeine-related pathways but not in taste perception. The taste of coffee can be altered by addition of milk/sweetener, which has not been accounted for in GWAS. Using UK and US cohorts, we test the hypotheses that genetic variants related to taste are more strongly associated with consumption of black coffee than with consumption of coffee with milk or sweetener and that genetic variants related to caffeine pathways are not differentially associated with the type of coffee consumed independent of caffeine content. Contrary to our hypotheses, genetically inferred caffeine sensitivity was more strongly associated with coffee taste preferences than with genetically inferred bitter taste perception. These findings extended to tea and dark chocolate. Taste preferences and physiological caffeine effects intertwine in a way that is difficult to distinguish for individuals which may represent conditioned taste preferences. [ABSTRACT FROM AUTHOR]

Published

2021

7. Gene-level analysis of rare variants in 379,066 whole exome sequences identifies an association of GIGYF1 loss of function with type 2 diabetes.

Author

Deaton, Aimee M., Parker, Margaret M., Ward, Lucas D., Flynn-Carroll, Alexander O., BonDurant, Lucas, Hinkle, Gregory, Akbari, Parsa, Lotta, Luca A., Regeneron Genetics Center, RGC Management and Leadership Team, Abecasis, Goncalo, Baras, Aris, Cantor, Michael, Coppola, Giovanni, Economides, Aris, Overton, John D., Reid, Jeffrey G., Shuldiner, Alan, Karalis, Katia, and Deubler, Andrew

Subjects

TYPE 2 diabetes, GENETIC variation, HUMAN genetics, DIABETES, DIAGNOSIS, EXOMES

Abstract

Sequencing of large cohorts offers an unprecedented opportunity to identify rare genetic variants and to find novel contributors to human disease. We used gene-based collapsing tests to identify genes associated with glucose, HbA1c and type 2 diabetes (T2D) diagnosis in 379,066 exome-sequenced participants in the UK Biobank. We identified associations for variants in GCK, HNF1A and PDX1, which are known to be involved in Mendelian forms of diabetes. Notably, we uncovered novel associations for GIGYF1, a gene not previously implicated by human genetics in diabetes. GIGYF1 predicted loss of function (pLOF) variants associated with increased levels of glucose (0.77 mmol/L increase, p = 4.42 × 10–12) and HbA1c (4.33 mmol/mol, p = 1.28 × 10–14) as well as T2D diagnosis (OR = 4.15, p = 6.14 × 10–11). Multiple rare variants contributed to these associations, including singleton variants. GIGYF1 pLOF also associated with decreased cholesterol levels as well as an increased risk of hypothyroidism. The association of GIGYF1 pLOF with T2D diagnosis replicated in an independent cohort from the Geisinger Health System. In addition, a common variant association for glucose and T2D was identified at the GIGYF1 locus. Our results highlight the role of GIGYF1 in regulating insulin signaling and protecting from diabetes. [ABSTRACT FROM AUTHOR]

Published

2021