Matthew Cloward scite author profile

The process of identifying suitable genome-wide association (GWA) studies and formatting the data to calculate multiple polygenic risk scores on a single genome can be laborious. Here, we present a centralized polygenic risk score calculator currently containing over 250,000 genetic variant associations from the NHGRI-EBI GWAS Catalog for users to easily calculate sample-specific polygenic risk scores with comparable results to other available tools. Polygenic risk scores are calculated either online through the Polygenic Risk Score Knowledge Base (PRSKB; https://prs.byu.edu) or via a command-line interface. We report study-specific polygenic risk scores across the UK Biobank, 1000 Genomes, and the Alzheimer’s Disease Neuroimaging Initiative (ADNI), contextualize computed scores, and identify potentially confounding genetic risk factors in ADNI. We introduce a streamlined analysis tool and web interface to calculate and contextualize polygenic risk scores across various studies, which we anticipate will facilitate a wider adaptation of polygenic risk scores in future disease research.

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Analysis of high‐risk pedigrees identifies 11 candidate variants for Alzheimer's disease

Teerlink

Miller

Vance

et al. 2021

Alzheimer's & Dementia

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Introduction: Analysis of sequence data in high-risk pedigrees is a powerful approach to detect rare predisposition variants. Methods: Rare, shared candidate predisposition variants were identified from exome sequencing 19 Alzheimer's disease (AD)-affected cousin pairs selected from high-risk pedigrees. Variants were further prioritized by risk association in various external datasets. Candidate variants emerging from these analyses were tested for co-segregation to additional affected relatives of the original sequenced pedigree members.Results: AD-affected high-risk cousin pairs contained 564 shared rare variants.Eleven variants spanning 10 genes were prioritized in external datasets: rs201665195 (ABCA7), and rs28933981 (TTR) were previously implicated in AD pathology; rs141402160 (NOTCH3) and rs140914494 (NOTCH3) were previously reported; rs200290640 (PIDD1) and rs199752248 (PIDD1) were present in more than one cousin pair; rs61729902 (SNAP91), rs140129800 (COX6A2, AC026471), and rs191804178 (MUC16) were not present in a longevity cohort; and rs148294193 (PELI3) and rs147599881 (FCHO1) approached significance from analysis of AD-related phenotypes. Three variants were validated via evidence of co-segregation to additional relatives (PELI3, ABCA7, and SNAP91).Discussion: These analyses support ABCA7 and TTR as AD risk genes, expand on previously reported NOTCH3 variant identification, and prioritize seven additional candidate variants.

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The Polygenic Risk Score Knowledge Base: A Centralized Online Repository for Calculating and Contextualizing Polygenic Risk Scores

Page

Vance

Cloward

et al. 2021

Preprint

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Introduction: Genome-wide association (GWA) studies identify correlation between genetic variants and phenotypes. GWA findings can be used to calculate polygenic risk scores, which represent the aggregate genetic risk across all associated loci. Methods: We developed a centralized polygenic risk score calculator containing over 2,300 GWA studies from the NHGRI-EBI GWAS Catalog. Polygenic risk scores are calculated from user-uploaded data using various user-defined parameters across any disease(s) or studies. Results: The Polygenic Risk Score Knowledge Base (https://prs.byu.edu) and command-line interface facilitate user-specific polygenic risk score calculations. We report study-specific polygenic risk scores across the U.K. Biobank, 1000 Genomes, and the Alzheimer’s Disease Neuroimaging Initiative (ADNI) and identify potentially confounding genetic risk factors in ADNI.Discussion: We introduce the first streamlined analysis tool and web interface to calculate and contextualize polygenic risk scores across various studies. We anticipate that the PRSKB will facilitate a wider adaptation and innovative use of polygenic risk scores in disease research. Data Availability: This project is documented online at https://polyriskscore.readthedocs.io/en/latest/, and all programs are publicly available at https://github.com/kauwelab/PolyRiskScore. A web interface is also available at https://prs.byu.edu/.

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Identification and genomic analysis of pedigrees with exceptional longevity identifies candidate rare variants

Miller

Ward

Staley

et al. 2020

Preprint

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Background: Longevity as a phenotype entails living longer than average and typically includes living without chronic age-related diseases. Recently, several common genetic components to longevity have been identified. This study aims to identify additional rare genetic variants associated with longevity using unique and powerful pedigree-based analyses of pedigrees with a statistical excess of healthy elderly individuals identified in the Utah Population Database (UPDB). Methods: From an existing biorepository of Utah pedigrees, four pedigrees were identified which exhibited an excess of healthy elderly individuals; whole exome sequencing (WES) was performed on one set of elderly first- or second- cousins from each pedigree. Rare (<0.01 population frequency) variants shared by at least one elderly cousin pair in a region likely to be identical by descent were identified as candidates. Ingenuity Variant Analysis was used to prioritize putative causal variants based on quality control, frequency, and gain or loss of function. The variant frequency was compared in healthy cohorts and in an Alzheimer's disease cohort. Remaining variants were filtered based on their presence in genes reported to have an effect on the aging process, aging of cells, or the longevity process. Validation of these candidate variants included tests of segregation to other elderly relatives. Results: Fifteen rare candidate genetic variants spanning 17 genes shared within cousins were identified as having passed prioritization criteria. Of those variants, six were present in genes that are known or predicted to affect the aging process: rs78408340 (PAM), rs112892337 (ZFAT), rs61737629 (ESPL1), rs141903485 (CEBPE), rs144369314 (UTP4), and rs61753103 (NUP88 and RABEP1). ESPL1 rs61737629 and CEBPE rs141903485 show additional evidence of segregation with longevity in expanded pedigree analyses (p-values=0.001 and 0.0001, respectively). Discussion: This unique pedigree analysis efficiently identified several novel rare candidate variants that may affect the aging process and added support to seven genes that likely contribute to longevity. Further analyses showed evidence for segregation for two rare variants, ESPL1 rs61737629 and CEBPE rs141903485, in the original longevity pedigrees in which they were originally observed. These candidate genes and variants warrant further investigation.

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Matthew Cloward

Identification and genomic analysis of pedigrees with exceptional longevity identifies candidate rare variants

The Polygenic Risk Score Knowledge Base offers a centralized online repository for calculating and contextualizing polygenic risk scores

Analysis of high‐risk pedigrees identifies 11 candidate variants for Alzheimer's disease

The Polygenic Risk Score Knowledge Base: A Centralized Online Repository for Calculating and Contextualizing Polygenic Risk Scores

Identification and genomic analysis of pedigrees with exceptional longevity identifies candidate rare variants

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