@article {133, title = {Association of Genetic Variation With Cirrhosis: A Multi-Trait Genome-Wide Association and Gene-Environment Interaction Study.}, journal = {Gastroenterology}, volume = {160}, year = {2021}, month = {2021 Apr}, pages = {1620-1633.e13}, abstract = {

BACKGROUND \& AIMS: In contrast to most other common diseases, few genetic variants have been identified that impact risk of cirrhosis. We aimed to identify new genetic variants that predispose to cirrhosis, to test whether such variants, aggregated into a polygenic score, enable genomic risk stratification, and to test whether alcohol intake or body mass index interacts with polygenic predisposition.

METHODS: We conducted a multi-trait genome-wide association study combining cirrhosis and alanine aminotransferase levels performed in 5 discovery studies (UK Biobank, Vanderbilt BioVU, Atherosclerosis Risk in Communities study, and 2 case-control studies including 4829 individuals with cirrhosis and 72,705 controls and 362,539 individuals with alanine aminotransferase levels). Identified variants were replicated in 3 studies (Partners HealthCare Biobank, FinnGen, and Biobank Japan including 3554 individuals with cirrhosis and 343,826 controls). A polygenic score was tested in Partners HealthCare Biobank.

RESULTS: Five previously reported and 7 newly identified genetic variants were associated with cirrhosis in both the discovery studies multi-trait genome-wide association study (P < 5~{\texttimes} 10) and the replication studies (P < .05), including a missense variant in the APOE gene and a noncoding variant near EFN1A. These 12 variants were used to generate a polygenic score. Among Partners HealthCare Biobank individuals, high polygenic score-defined as the top quintile of the distribution-was associated with significantly increased risk of cirrhosis (odds ratio, 2.26; P < .001) and related comorbidities compared with the lowest quintile. Risk was even more pronounced among those with extreme polygenic risk (top 1\% of the distribution, odds ratio, 3.16; P < .001). The impact of extreme polygenic risk was substantially more pronounced in those with elevated alcohol consumption or body mass index. Modeled as risk by age 75 years, probability of cirrhosis with extreme polygenic risk was 13.7\%, 20.1\%, and 48.2\% among individuals with no or modest, moderate, and increased alcohol consumption, respectively (P < .001). Similarly, probability among those with extreme polygenic risk was 6.5\%, 10.3\%, and 19.5\% among individuals with normal weight, overweight, and obesity, respectively (P < .001).

CONCLUSIONS: Twelve independent genetic variants, 7 of which are newly identified in this study, conferred risk for cirrhosis. Aggregated into a polygenic score, these variants identified a subset of the population at substantially increased risk who are most susceptible to the hepatotoxic effects of excess alcohol consumption or obesity.

}, issn = {1528-0012}, doi = {10.1053/j.gastro.2020.12.011}, author = {Emdin, Connor A and Haas, Mary and Ajmera, Veeral and Simon, Tracey G and Homburger, Julian and Neben, Cynthia and Jiang, Lan and Wei, Wei-Qi and Feng, Qiping and Zhou, Alicia and Denny, Joshua and Corey, Kathleen and Loomba, Rohit and Kathiresan, Sekar and Khera, Amit V} } @article {142, title = {Transethnic Transferability of a Genome-Wide Polygenic Score for Coronary Artery Disease.}, journal = {Circ Genom Precis Med}, volume = {14}, year = {2021}, month = {2021 Feb}, pages = {e003092}, issn = {2574-8300}, doi = {10.1161/CIRCGEN.120.003092}, author = {Fahed, Akl C and Aragam, Krishna G and Hindy, George and Chen, Yii-Der Ida and Chaudhary, Kumardeep and Dobbyn, Amanda and Krumholz, Harlan M and Sheu, Wayne H H and Rich, Stephen S and Rotter, Jerome I and Chowdhury, Rajiv and Cho, Judy and Do, Ron and Ellinor, Patrick T and Kathiresan, Sekar and Khera, Amit V} } @article {117, title = {Analysis of cardiac magnetic resonance imaging in 36,000 individuals yields genetic insights into dilated cardiomyopathy.}, journal = {Nat Commun}, volume = {11}, year = {2020}, month = {2020 05 07}, pages = {2254}, abstract = {

Dilated cardiomyopathy (DCM) is an important cause of heart failure and the leading indication for heart transplantation. Many rare genetic variants have been associated with DCM, but common variant studies of the disease have yielded few associated loci. As structural changes in the heart are a defining feature of DCM, we report a genome-wide association study of cardiac magnetic resonance imaging (MRI)-derived left ventricular measurements in 36,041 UK Biobank participants, with replication in 2184 participants from the Multi-Ethnic Study of Atherosclerosis. We identify 45 previously unreported loci associated with cardiac structure and function, many near well-established genes for Mendelian cardiomyopathies. A polygenic score of MRI-derived left ventricular end systolic volume strongly associates with incident DCM in the general population. Even among carriers of TTN truncating mutations, this polygenic score influences the size and function of the human heart. These results further implicate common genetic polymorphisms in the pathogenesis of DCM.

}, keywords = {Cardiomyopathy, Dilated, Genome-Wide Association Study, Heart, Humans, Magnetic Resonance Imaging, Myocardium, Polymorphism, Single Nucleotide}, issn = {2041-1723}, doi = {10.1038/s41467-020-15823-7}, author = {Pirruccello, James P and Bick, Alexander and Wang, Minxian and Chaffin, Mark and Friedman, Samuel and Yao, Jie and Guo, Xiuqing and Venkatesh, Bharath Ambale and Taylor, Kent D and Post, Wendy S and Rich, Stephen and Lima, Joao A C and Rotter, Jerome I and Philippakis, Anthony and Lubitz, Steven A and Ellinor, Patrick T and Khera, Amit V and Kathiresan, Sekar and Aragam, Krishna G} } @article {144, title = {Association of Rare Pathogenic DNA Variants for Familial Hypercholesterolemia, Hereditary Breast and Ovarian Cancer Syndrome, and Lynch Syndrome With Disease Risk in Adults According to Family History.}, journal = {JAMA Netw Open}, volume = {3}, year = {2020}, month = {2020 04 01}, pages = {e203959}, abstract = {

Importance: Pathogenic DNA variants associated with familial hypercholesterolemia, hereditary breast and ovarian cancer syndrome, and Lynch syndrome are widely recognized as clinically important and actionable when identified, leading some clinicians to recommend population-wide genomic screening.

Objectives: To assess the prevalence and clinical importance of pathogenic or likely pathogenic variants associated with each of 3 genomic conditions (familial hypercholesterolemia, hereditary breast and ovarian cancer syndrome, and Lynch syndrome) within the context of contemporary clinical care.

Design, Setting, and Participants: This cohort study used gene-sequencing data from 49 738 participants in the UK Biobank who were recruited from 22 sites across the UK between March 21, 2006, and October 1, 2010. Inpatient hospital data date back to 1977; cancer registry data, to 1957; and death registry data, to 2006. Statistical analysis was performed from July 22, 2019, to November 15, 2019.

Exposures: Pathogenic or likely pathogenic DNA variants classified by a clinical laboratory geneticist.

Main Outcomes and Measures: Composite end point specific to each genomic condition based on atherosclerotic cardiovascular disease events for familial hypercholesterolemia, breast or ovarian cancer for hereditary breast and ovarian cancer syndrome, and colorectal or uterine cancer for Lynch syndrome.

Results: Among 49 738 participants (mean [SD] age, 57 [8] years; 27 144 female [55\%]), 441 (0.9\%) harbored a pathogenic or likely pathogenic variant associated with any of 3 genomic conditions, including 131 (0.3\%) for familial hypercholesterolemia, 235 (0.5\%) for hereditary breast and ovarian cancer syndrome, and 76 (0.2\%) for Lynch syndrome. Presence of these variants was associated with increased risk of disease: for familial hypercholesterolemia, 28 of 131 carriers (21.4\%) vs 4663 of 49 607 noncarriers (9.4\%) developed atherosclerotic cardiovascular disease; for hereditary breast and ovarian cancer syndrome, 32 of 116 female carriers (27.6\%) vs 2080 of 27 028 female noncarriers (7.7\%) developed associated cancers; and for Lynch syndrome, 17 of 76 carriers (22.4\%) vs 929 of 49 662 noncarriers (1.9\%) developed colorectal or uterine cancer. The predicted probability of disease at age 75 years despite contemporary clinical care was 45.3\% for carriers of familial hypercholesterolemia, 41.1\% for hereditary breast and ovarian cancer syndrome, and 38.3\% for Lynch syndrome. Across the 3 conditions, 39.7\% (175 of 441) of the carriers reported a family history of disease vs 23.2\% (34 517 of 148 772) of noncarriers.

Conclusions and Relevance: The findings suggest that approximately 1\% of the middle-aged adult population in the UK Biobank harbored a pathogenic variant associated with any of 3 genomic conditions. These variants were associated with an increased risk of disease despite contemporary clinical care and were not reliably detected by family history.

}, keywords = {Aged, Cohort Studies, Colorectal Neoplasms, Hereditary Nonpolyposis, Female, Genetic Predisposition to Disease, Hereditary Breast and Ovarian Cancer Syndrome, Heterozygote, Humans, Hyperlipoproteinemia Type II, Male, Middle Aged, Pedigree, Proportional Hazards Models, United Kingdom, Whole Exome Sequencing}, issn = {2574-3805}, doi = {10.1001/jamanetworkopen.2020.3959}, author = {Patel, Aniruddh P and Wang, Minxian and Fahed, Akl C and Mason-Suares, Heather and Brockman, Deanna and Pelletier, Renee and Amr, Sami and Machini, Kalotina and Hawley, Megan and Witkowski, Leora and Koch, Christopher and Philippakis, Anthony and Cassa, Christopher A and Ellinor, Patrick T and Kathiresan, Sekar and Ng, Kenney and Lebo, Matthew and Khera, Amit V} } @article {129, title = {Genome-Wide Polygenic Score, Clinical Risk Factors, and Long-Term Trajectories of Coronary Artery Disease.}, journal = {Arterioscler Thromb Vasc Biol}, volume = {40}, year = {2020}, month = {2020 11}, pages = {2738-2746}, abstract = {

OBJECTIVE: To determine the relationship of a genome-wide polygenic score for coronary artery disease (GPS) with lifetime trajectories of CAD risk, directly compare its predictive capacity to traditional risk factors, and assess its interplay with the Pooled Cohort Equations (PCE) clinical risk estimator. Approach and Results: We studied GPS in 28 556 middle-aged participants of the Malm{\"o} Diet and Cancer Study, of whom 4122 (14.4\%) developed CAD over a median follow-up of 21.3 years. A pronounced gradient in lifetime risk of CAD was observed-16\% for those in the lowest GPS decile to 48\% in the highest. We evaluated the discriminative capacity of the GPS-as assessed by change in the C-statistic from a baseline model including age and sex-among 5685 individuals with PCE risk estimates available. The increment for the GPS (+0.045, <0.001) was higher than for any of 11 traditional risk factors (range +0.007 to +0.032). Minimal correlation was observed between GPS and 10-year risk defined by the PCE (=0.03), and addition of GPS improved the C-statistic of the PCE model by 0.026. A significant gradient in lifetime risk was observed for the GPS, even among individuals within a given PCE clinical risk stratum. We replicated key findings-noting strikingly consistent results-in 325 003 participants of the UK Biobank.

CONCLUSIONS: GPS-a risk estimator available from birth-stratifies individuals into varying trajectories of clinical risk for CAD. Implementation of GPS may enable identification of high-risk individuals early in life, decades in advance of manifest risk factors or disease.

}, keywords = {Adult, Aged, Coronary Artery Disease, Female, Genetic Predisposition to Disease, Genome-Wide Association Study, Heart Disease Risk Factors, Heredity, Humans, Incidence, Male, Middle Aged, Multifactorial Inheritance, Phenotype, Prognosis, Risk Assessment, Sweden, Time Factors, United Kingdom}, issn = {1524-4636}, doi = {10.1161/ATVBAHA.120.314856}, author = {Hindy, George and Aragam, Krishna G and Ng, Kenney and Chaffin, Mark and Lotta, Luca A and Baras, Aris and Drake, Isabel and Orho-Melander, Marju and Melander, Olle and Kathiresan, Sekar and Khera, Amit V} } @article {130, title = {Heterozygous Gene Deficiency and Risk of Coronary Artery Disease.}, journal = {Circ Genom Precis Med}, volume = {13}, year = {2020}, month = {2020 10}, pages = {417-423}, abstract = {

BACKGROUND: Familial sitosterolemia is a rare Mendelian disorder characterized by hyperabsorption and decreased biliary excretion of dietary sterols. Affected individuals typically have complete genetic deficiency-homozygous loss-of-function (LoF) variants-in the or genes and have substantially elevated plasma sitosterol and LDL (low-density lipoprotein) cholesterol (LDL-C) levels. The impact of partial genetic deficiency of or -as occurs in heterozygous carriers of LoF variants-on LDL-C and risk of coronary artery disease (CAD) has remained uncertain.

METHODS: We first recruited 9 sitosterolemia families, identified causative LoF variants in or , and evaluated the associations of these or LoF variants with plasma phytosterols and lipid levels. We next assessed for LoF variants in or in CAD cases (n=29 321) versus controls (n=357 326). We tested the association of rare LoF variants in or with blood lipids and risk for CAD. Rare LoF variants were defined as protein-truncating variants with minor allele frequency <0.1\% in or .

RESULTS: In sitosterolemia families, 7 pedigrees harbored causative LoF variants in and 2 pedigrees in . Homozygous LoF variants in either or led to marked elevations in sitosterol and LDL-C. Of those sitosterolemia families, heterozygous carriers of LoF variants exhibited increased sitosterol and LDL-C levels compared with noncarriers. Within large-scale CAD case-control cohorts, prevalence of rare LoF variants in and in was ≈0.1\% each. heterozygous LoF variant carriers had significantly elevated LDL-C levels (25 mg/dL [95\% CI, 14-35]; =1.1{\texttimes}10) and were at 2-fold increased risk of CAD (odds ratio, 2.06 [95\% CI, 1.27-3.35]; =0.004). By contrast, heterozygous LoF carrier status was not associated with increased LDL-C or risk of CAD.

CONCLUSIONS: Although familial sitosterolemia is traditionally considered as a recessive disorder, we observed that heterozygous carriers of an LoF variant in had significantly increased sitosterol and LDL-C levels and a 2-fold increase in risk of CAD.

}, issn = {2574-8300}, doi = {10.1161/CIRCGEN.119.002871}, author = {Nomura, Akihiro and Emdin, Connor A and Won, Hong Hee and Peloso, Gina M and Natarajan, Pradeep and Ardissino, Diego and Danesh, John and Schunkert, Heribert and Correa, Adolfo and Bown, Matthew J and Samani, Nilesh J and Erdmann, Jeanette and McPherson, Ruth and Watkins, Hugh and Saleheen, Danish and Elosua, Roberto and Kawashiri, Masa-Aki and Tada, Hayato and Gupta, Namrata and Shah, Svati H and Rader, Daniel J and Gabriel, Stacey and Khera, Amit V and Kathiresan, Sekar} } @article {120, title = {Inherited causes of clonal haematopoiesis in 97,691 whole genomes.}, journal = {Nature}, volume = {586}, year = {2020}, month = {2020 10}, pages = {763-768}, abstract = {

Age is the dominant risk factor for most chronic human diseases, but the mechanisms through which ageing confers this risk are largely unknown. The age-related acquisition of somatic mutations that lead to clonal expansion in regenerating haematopoietic stem cell populations has recently been associated with both haematological cancer and coronary heart disease-this phenomenon is~termed clonal haematopoiesis of indeterminate potential (CHIP). Simultaneous analyses of germline and somatic whole-genome sequences provide the opportunity to identify root causes of CHIP. Here we analyse high-coverage whole-genome sequences from 97,691 participants of diverse ancestries in the National Heart, Lung, and Blood Institute Trans-omics for Precision Medicine (TOPMed) programme, and identify 4,229 individuals with CHIP. We identify associations with blood cell, lipid and inflammatory traits that are specific to different CHIP~driver genes. Association of a genome-wide set of germline genetic variants enabled the identification of three genetic loci associated with CHIP status, including one locus at TET2 that was specific to individuals of African ancestry. In silico-informed in vitro evaluation of the TET2 germline locus enabled the identification of a causal variant that disrupts a TET2 distal enhancer, resulting in increased self-renewal of haematopoietic stem cells. Overall, we observe that germline genetic variation shapes haematopoietic stem cell function, leading to CHIP through mechanisms that are specific to clonal haematopoiesis as well as shared mechanisms that lead to somatic mutations across tissues.

}, keywords = {Adult, Africa, African Continental Ancestry Group, Aged, Aged, 80 and over, alpha Karyopherins, Cell Self Renewal, Clonal Hematopoiesis, DNA-Binding Proteins, Female, Genetic Predisposition to Disease, Genome, Human, Germ-Line Mutation, Hematopoietic Stem Cells, Humans, Intracellular Signaling Peptides and Proteins, Male, Middle Aged, National Heart, Lung, and Blood Institute (U.S.), Phenotype, Precision Medicine, Proto-Oncogene Proteins, Tripartite Motif Proteins, United States, Whole Genome Sequencing}, issn = {1476-4687}, doi = {10.1038/s41586-020-2819-2}, author = {Bick, Alexander G and Weinstock, Joshua S and Nandakumar, Satish K and Fulco, Charles P and Bao, Erik L and Zekavat, Seyedeh M and Szeto, Mindy D and Liao, Xiaotian and Leventhal, Matthew J and Nasser, Joseph and Chang, Kyle and Laurie, Cecelia and Burugula, Bala Bharathi and Gibson, Christopher J and Lin, Amy E and Taub, Margaret A and Aguet, Fran{\c c}ois and Ardlie, Kristin and Mitchell, Braxton D and Barnes, Kathleen C and Moscati, Arden and Fornage, Myriam and Redline, Susan and Psaty, Bruce M and Silverman, Edwin K and Weiss, Scott T and Palmer, Nicholette D and Vasan, Ramachandran S and Burchard, Esteban G and Kardia, Sharon L R and He, Jiang and Kaplan, Robert C and Smith, Nicholas L and Arnett, Donna K and Schwartz, David A and Correa, Adolfo and de Andrade, Mariza and Guo, Xiuqing and Konkle, Barbara A and Custer, Brian and Peralta, Juan M and Gui, Hongsheng and Meyers, Deborah A and McGarvey, Stephen T and Chen, Ida Yii-Der and Shoemaker, M Benjamin and Peyser, Patricia A and Broome, Jai G and Gogarten, Stephanie M and Wang, Fei Fei and Wong, Quenna and Montasser, May E and Daya, Michelle and Kenny, Eimear E and North, Kari E and Launer, Lenore J and Cade, Brian E and Bis, Joshua C and Cho, Michael H and Lasky-Su, Jessica and Bowden, Donald W and Cupples, L Adrienne and Mak, Angel C Y and Becker, Lewis C and Smith, Jennifer A and Kelly, Tanika N and Aslibekyan, Stella and Heckbert, Susan R and Tiwari, Hemant K and Yang, Ivana V and Heit, John A and Lubitz, Steven A and Johnsen, Jill M and Curran, Joanne E and Wenzel, Sally E and Weeks, Daniel E and Rao, Dabeeru C and Darbar, Dawood and Moon, Jee-Young and Tracy, Russell P and Buth, Erin J and Rafaels, Nicholas and Loos, Ruth J F and Durda, Peter and Liu, Yongmei and Hou, Lifang and Lee, Jiwon and Kachroo, Priyadarshini and Freedman, Barry I and Levy, Daniel and Bielak, Lawrence F and Hixson, James E and Floyd, James S and Whitsel, Eric A and Ellinor, Patrick T and Irvin, Marguerite R and Fingerlin, Tasha E and Raffield, Laura M and Armasu, Sebastian M and Wheeler, Marsha M and Sabino, Ester C and Blangero, John and Williams, L Keoki and Levy, Bruce D and Sheu, Wayne Huey-Herng and Roden, Dan M and Boerwinkle, Eric and Manson, JoAnn E and Mathias, Rasika A and Desai, Pinkal and Taylor, Kent D and Johnson, Andrew D and Auer, Paul L and Kooperberg, Charles and Laurie, Cathy C and Blackwell, Thomas W and Smith, Albert V and Zhao, Hongyu and Lange, Ethan and Lange, Leslie and Rich, Stephen S and Rotter, Jerome I and Wilson, James G and Scheet, Paul and Kitzman, Jacob O and Lander, Eric S and Engreitz, Jesse M and Ebert, Benjamin L and Reiner, Alexander P and Jaiswal, Siddhartha and Abecasis, Gon{\c c}alo and Sankaran, Vijay G and Kathiresan, Sekar and Natarajan, Pradeep} } @article {131, title = {A missense variant in Mitochondrial Amidoxime Reducing Component 1 gene and protection against liver disease.}, journal = {PLoS Genet}, volume = {16}, year = {2020}, month = {2020 04}, pages = {e1008629}, abstract = {

Analyzing 12,361 all-cause cirrhosis cases and 790,095 controls from eight cohorts, we identify a common missense variant in the Mitochondrial Amidoxime Reducing Component 1 gene (MARC1 p.A165T) that associates with protection from all-cause cirrhosis (OR 0.91, p = 2.3*10-11). This same variant also associates with lower levels of hepatic fat on computed tomographic imaging and lower odds of physician-diagnosed fatty liver as well as lower blood levels of alanine transaminase (-0.025 SD, 3.7*10-43), alkaline phosphatase (-0.025 SD, 1.2*10-37), total cholesterol (-0.030 SD, p = 1.9*10-36) and LDL cholesterol (-0.027 SD, p = 5.1*10-30) levels. We identified a series of additional MARC1 alleles (low-frequency missense p.M187K and rare protein-truncating p.R200Ter) that also associated with lower cholesterol levels, liver enzyme levels and reduced risk of cirrhosis (0 cirrhosis cases for 238 R200Ter carriers versus 17,046 cases of cirrhosis among 759,027 non-carriers, p = 0.04) suggesting that deficiency of the MARC1 enzyme may lower blood cholesterol levels and protect against cirrhosis.

}, keywords = {Alleles, Cholesterol, LDL, Coronary Artery Disease, Datasets as Topic, Fatty Liver, Female, Genetic Predisposition to Disease, Homozygote, Humans, Liver, Liver Cirrhosis, Liver Cirrhosis, Alcoholic, Loss of Function Mutation, Male, Middle Aged, Mitochondrial Proteins, Mutation, Missense, Oxidoreductases}, issn = {1553-7404}, doi = {10.1371/journal.pgen.1008629}, author = {Emdin, Connor A and Haas, Mary E and Khera, Amit V and Aragam, Krishna and Chaffin, Mark and Klarin, Derek and Hindy, George and Jiang, Lan and Wei, Wei-Qi and Feng, Qiping and Karjalainen, Juha and Havulinna, Aki and Kiiskinen, Tuomo and Bick, Alexander and Ardissino, Diego and Wilson, James G and Schunkert, Heribert and McPherson, Ruth and Watkins, Hugh and Elosua, Roberto and Bown, Matthew J and Samani, Nilesh J and Baber, Usman and Erdmann, Jeanette and Gupta, Namrata and Danesh, John and Saleheen, Danish and Chang, Kyong-Mi and Vujkovic, Marijana and Voight, Ben and Damrauer, Scott and Lynch, Julie and Kaplan, David and Serper, Marina and Tsao, Philip and Mercader, Josep and Hanis, Craig and Daly, Mark and Denny, Joshua and Gabriel, Stacey and Kathiresan, Sekar} } @article {141, title = {Non-parametric Polygenic Risk Prediction via Partitioned GWAS Summary Statistics.}, journal = {Am J Hum Genet}, volume = {107}, year = {2020}, month = {2020 07 02}, pages = {46-59}, abstract = {

In complex trait genetics, the ability to predict phenotype from genotype is the ultimate measure of our understanding of genetic architecture underlying the heritability of a trait. A complete understanding of the genetic basis of a trait should allow for predictive methods with accuracies approaching the trait{\textquoteright}s heritability. The highly polygenic nature of quantitative traits and most common phenotypes has motivated the development of statistical strategies focused on combining myriad individually non-significant genetic effects. Now that predictive accuracies are improving, there is a growing interest in the practical utility of such methods for predicting risk of common diseases responsive to early therapeutic intervention. However, existing methods require individual-level genotypes or depend on accurately specifying the genetic architecture underlying each disease to be predicted. Here, we propose a polygenic risk prediction method that does not require explicitly modeling any underlying genetic architecture. We start with summary statistics in the form of SNP effect sizes from a large GWAS cohort. We then remove the correlation structure across summary statistics arising due to linkage disequilibrium and apply a piecewise linear interpolation on conditional mean effects. In both simulated and real datasets, this new non-parametric shrinkage (NPS) method can reliably allow for linkage disequilibrium in summary statistics of 5 million dense genome-wide markers and consistently improves prediction accuracy. We show that NPS improves the identification of groups at high risk for breast cancer, type 2 diabetes, inflammatory bowel disease, and coronary heart disease, all of which have available early intervention or prevention treatments.

}, keywords = {Aged, Cohort Studies, Diabetes Mellitus, Type 2, Female, Genome-Wide Association Study, Genotype, Humans, Linkage Disequilibrium, Male, Middle Aged, Models, Genetic, Multifactorial Inheritance, Phenotype, Polymorphism, Single Nucleotide, Quantitative Trait Loci}, issn = {1537-6605}, doi = {10.1016/j.ajhg.2020.05.004}, author = {Chun, Sung and Imakaev, Maxim and Hui, Daniel and Patsopoulos, Nikolaos A and Neale, Benjamin M and Kathiresan, Sekar and Stitziel, Nathan O and Sunyaev, Shamil R} } @article {105, title = {Polygenic background modifies penetrance of monogenic variants for tier 1 genomic conditions.}, journal = {Nat Commun}, volume = {11}, year = {2020}, month = {2020 08 20}, pages = {3635}, abstract = {

Genetic variation can predispose to disease both through (i) monogenic risk variants that disrupt a physiologic pathway with large effect on disease and (ii) polygenic risk that involves many variants of small effect in different pathways. Few studies have explored the interplay between monogenic and polygenic risk. Here, we study 80,928 individuals to examine whether polygenic background can modify penetrance of disease in tier 1 genomic conditions - familial hypercholesterolemia, hereditary breast and ovarian cancer, and Lynch syndrome. Among carriers of a monogenic risk variant, we estimate substantial gradients in disease risk based on polygenic background - the probability of disease by age 75 years ranged from 17\% to 78\% for coronary artery disease, 13\% to 76\% for breast cancer, and 11\% to 80\% for colon cancer. We propose that accounting for polygenic background is likely to increase accuracy of risk estimation for individuals who inherit a monogenic risk variant.

}, keywords = {Aged, Breast Neoplasms, Case-Control Studies, Colorectal Neoplasms, Coronary Artery Disease, Female, Genetic Predisposition to Disease, Genome, Human, Humans, Male, Middle Aged, Multifactorial Inheritance, Odds Ratio, Penetrance, Risk Factors}, issn = {2041-1723}, doi = {10.1038/s41467-020-17374-3}, author = {Fahed, Akl C and Wang, Minxian and Homburger, Julian R and Patel, Aniruddh P and Bick, Alexander G and Neben, Cynthia L and Lai, Carmen and Brockman, Deanna and Philippakis, Anthony and Ellinor, Patrick T and Cassa, Christopher A and Lebo, Matthew and Ng, Kenney and Lander, Eric S and Zhou, Alicia Y and Kathiresan, Sekar and Khera, Amit V} } @article {114, title = {A structural variation reference for medical and population genetics.}, journal = {Nature}, volume = {581}, year = {2020}, month = {2020 05}, pages = {444-451}, abstract = {

Structural variants (SVs) rearrange large segments of DNA and can have profound consequences in evolution and human disease. As national biobanks, disease-association studies, and clinical genetic testing have grown increasingly reliant on genome sequencing, population references such as the Genome Aggregation Database (gnomAD) have become integral in the interpretation of single-nucleotide variants (SNVs). However, there are no reference maps of SVs from high-coverage genome sequencing comparable to those for SNVs. Here we present a reference of sequence-resolved SVs constructed from 14,891 genomes across diverse global populations (54\% non-European) in gnomAD. We discovered a rich and complex landscape of 433,371 SVs, from which we estimate that SVs are responsible for 25-29\% of all rare protein-truncating events per genome. We found strong correlations between natural selection against damaging SNVs and rare SVs that disrupt or duplicate protein-coding sequence, which suggests that genes that are highly intolerant to loss-of-function are also sensitive to increased dosage. We also uncovered modest selection against noncoding SVs in cis-regulatory elements, although selection against protein-truncating SVs was stronger than all noncoding effects. Finally, we identified very large (over one megabase), rare SVs in 3.9\% of samples, and estimate that 0.13\% of individuals may carry an SV that meets the existing criteria for clinically important incidental findings. This SV resource is freely distributed via the gnomAD browser and will have broad utility in population genetics, disease-association studies, and diagnostic screening.

}, keywords = {Continental Population Groups, Disease, Female, Genetic Testing, Genetic Variation, Genetics, Medical, Genetics, Population, Genome, Human, Genotyping Techniques, Humans, Male, Middle Aged, Mutation, Polymorphism, Single Nucleotide, Reference Standards, Selection, Genetic, Whole Genome Sequencing}, issn = {1476-4687}, doi = {10.1038/s41586-020-2287-8}, author = {Collins, Ryan L and Brand, Harrison and Karczewski, Konrad J and Zhao, Xuefang and Alf{\"o}ldi, Jessica and Francioli, Laurent C and Khera, Amit V and Lowther, Chelsea and Gauthier, Laura D and Wang, Harold and Watts, Nicholas A and Solomonson, Matthew and O{\textquoteright}Donnell-Luria, Anne and Baumann, Alexander and Munshi, Ruchi and Walker, Mark and Whelan, Christopher W and Huang, Yongqing and Brookings, Ted and Sharpe, Ted and Stone, Matthew R and Valkanas, Elise and Fu, Jack and Tiao, Grace and Laricchia, Kristen M and Ruano-Rubio, Valentin and Stevens, Christine and Gupta, Namrata and Cusick, Caroline and Margolin, Lauren and Taylor, Kent D and Lin, Henry J and Rich, Stephen S and Post, Wendy S and Chen, Yii-Der Ida and Rotter, Jerome I and Nusbaum, Chad and Philippakis, Anthony and Lander, Eric and Gabriel, Stacey and Neale, Benjamin M and Kathiresan, Sekar and Daly, Mark J and Banks, Eric and MacArthur, Daniel G and Talkowski, Michael E} } @article {136, title = {Titin Truncating Variants in Adults Without Known Congestive Heart~Failure.}, journal = {J Am Coll Cardiol}, volume = {75}, year = {2020}, month = {2020 03 17}, pages = {1239-1241}, keywords = {Adult, Aged, Asymptomatic Diseases, Connectin, Female, Genetic Variation, Heart Failure, Humans, Male, Middle Aged}, issn = {1558-3597}, doi = {10.1016/j.jacc.2020.01.013}, author = {Pirruccello, James P and Bick, Alexander and Chaffin, Mark and Aragam, Krishna G and Choi, Seung Hoan and Lubitz, Steven A and Ho, Carolyn Y and Ng, Kenney and Philippakis, Anthony and Ellinor, Patrick T and Kathiresan, Sekar and Khera, Amit V} } @article {127, title = {Validation of a Genome-Wide Polygenic~Score for Coronary Artery~Disease in~South Asians.}, journal = {J Am Coll Cardiol}, volume = {76}, year = {2020}, month = {2020 08 11}, pages = {703-714}, abstract = {

BACKGROUND: Genome-wide polygenic scores (GPS) integrate information from many common DNA variants into a single number. Because rates of coronary artery disease (CAD) are substantially higher among South Asians, a GPS to identify high-risk individuals may be particularly useful in this population.

OBJECTIVES: This analysis used summary statistics from a prior genome-wide association study to derive a new GPS for South Asians.

METHODS: This GPS was validated in 7,244 South Asian UK Biobank participants and tested in 491 individuals from a case-control study in Bangladesh. Next, a static ancestry and GPS reference distribution was built using whole-genome sequencing from 1,522 Indian individuals, and a framework was tested for projecting individuals onto this static ancestry and GPS reference distribution using 1,800 CAD cases and 1,163 control subjects newly recruited in India.

RESULTS: The GPS, containing 6,630,150 common DNA variants, had an odds ratio (OR) per SD of 1.58 in South Asian UK Biobank participants and 1.60 in the Bangladeshi study (p~<~0.001 for each). Next, individuals of the Indian case-control study were projected onto static reference distributions, observing an OR/SD of 1.66 (p~<~0.001). Compared with the middle quintile, risk for CAD was most pronounced for those in the top 5\% of the GPS distribution-ORs of 4.16, 2.46, and 3.22 in the South Asian UK Biobank, Bangladeshi, and Indian studies, respectively (p~<~0.05 for each).

CONCLUSIONS: The new GPS has been developed and tested using 3 distinct South Asian studies, and provides a generalizable framework for ancestry-specific GPS assessment.

}, keywords = {Adult, Aged, Bangladesh, Case-Control Studies, Coronary Artery Disease, Female, Genome-Wide Association Study, Humans, India, Male, Middle Aged, Multifactorial Inheritance}, issn = {1558-3597}, doi = {10.1016/j.jacc.2020.06.024}, author = {Wang, Minxian and Menon, Ramesh and Mishra, Sanghamitra and Patel, Aniruddh P and Chaffin, Mark and Tanneeru, Deepak and Deshmukh, Manjari and Mathew, Oshin and Apte, Sanika and Devanboo, Christina S and Sundaram, Sumathi and Lakshmipathy, Praveena and Murugan, Sakthivel and Sharma, Krishna Kumar and Rajendran, Karthikeyan and Santhosh, Sam and Thachathodiyl, Rajesh and Ahamed, Hisham and Balegadde, Aniketh Vijay and Alexander, Thomas and Swaminathan, Krishnan and Gupta, Rajeev and Mullasari, Ajit S and Sigamani, Alben and Kanchi, Muralidhar and Peterson, Andrew S and Butterworth, Adam S and Danesh, John and Di Angelantonio, Emanuele and Naheed, Aliya and Inouye, Michael and Chowdhury, Rajiv and Vedam, Ramprasad L and Kathiresan, Sekar and Gupta, Ravi and Khera, Amit V} } @article {50, title = {Whole-Genome Sequencing to Characterize Monogenic and Polygenic Contributions in Patients Hospitalized With Early-Onset Myocardial Infarction.}, journal = {Circulation}, volume = {139}, year = {2019}, month = {2019 Mar 26}, pages = {1593-1602}, abstract = {

BACKGROUND: The relative prevalence and clinical importance of monogenic mutations related to familial hypercholesterolemia and of high polygenic score (cumulative impact of many common variants) pathways for early-onset myocardial infarction remain uncertain. Whole-genome sequencing enables simultaneous ascertainment of both monogenic mutations and polygenic score for each individual.

METHODS: We performed deep-coverage whole-genome sequencing of 2081 patients from 4 racial subgroups hospitalized in the United States with early-onset myocardial infarction (age <=55 years) recruited with a 2:1 female-to-male enrollment design. We compared these genomes with those of 3761 population-based control subjects. We first identified individuals with a rare, monogenic mutation related to familial hypercholesterolemia. Second, we calculated a recently developed polygenic score of 6.6 million common DNA variants to quantify the cumulative susceptibility conferred by common variants. We defined high polygenic score as the top 5\% of the control distribution because this cutoff has previously been shown to confer similar risk to that of familial hypercholesterolemia mutations.

RESULTS: The mean age of the 2081 patients presenting with early-onset myocardial infarction was 48 years, and 66\% were female. A familial hypercholesterolemia mutation was present in 36 of these patients (1.7\%) and was associated with a 3.8-fold (95\% CI, 2.1-6.8; P<0.001) increased odds of myocardial infarction. Of the patients with early-onset myocardial infarction, 359 (17.3\%) carried a high polygenic score, associated with a 3.7-fold (95\% CI, 3.1-4.6; P<0.001) increased odds. Mean estimated untreated low-density lipoprotein cholesterol was 206 mg/dL in those with a familial hypercholesterolemia mutation, 132 mg/dL in those with high polygenic score, and 122 mg/dL in those in the remainder of the population. Although associated with increased risk in all racial groups, high polygenic score demonstrated the strongest association in white participants ( P for heterogeneity=0.008).

CONCLUSIONS: Both familial hypercholesterolemia mutations and high polygenic score are associated with a >3-fold increased odds of early-onset myocardial infarction. However, high polygenic score has a 10-fold higher prevalence among patients presents with early-onset myocardial infarction.

CLINICAL TRIAL REGISTRATION: URL: https://www.clinicaltrials.gov . Unique identifier: NCT00597922.

}, issn = {1524-4539}, doi = {10.1161/CIRCULATIONAHA.118.035658}, author = {Khera, Amit V and Chaffin, Mark and Zekavat, Seyedeh M and Collins, Ryan L and Roselli, Carolina and Natarajan, Pradeep and Lichtman, Judith H and D{\textquoteright}Onofrio, Gail and Mattera, Jennifer and Dreyer, Rachel and Spertus, John A and Taylor, Kent D and Psaty, Bruce M and Rich, Stephen S and Post, Wendy and Gupta, Namrata and Gabriel, Stacey and Lander, Eric and Ida Chen, Yii-Der and Talkowski, Michael E and Rotter, Jerome I and Krumholz, Harlan M and Kathiresan, Sekar} } @article {38, title = {Analysis of predicted loss-of-function variants in UK Biobank identifies variants protective for disease.}, journal = {Nat Commun}, volume = {9}, year = {2018}, month = {2018 04 24}, pages = {1613}, abstract = {

Less than 3\% of protein-coding genetic variants are predicted to result in loss of protein function through the introduction of a stop codon, frameshift, or the disruption of an essential splice site; however, such predicted loss-of-function (pLOF) variants provide insight into effector transcript and direction of biological effect. In >400,000 UK Biobank participants, we conduct association analyses of 3759 pLOF variants with six metabolic traits, six cardiometabolic diseases, and twelve additional diseases. We identified 18 new low-frequency or rare (allele frequency < 5\%) pLOF variant-phenotype associations. pLOF variants in the gene GPR151 protect against obesity and type 2 diabetes, in the gene IL33 against asthma and allergic disease, and in the gene IFIH1 against hypothyroidism. In the gene PDE3B, pLOF variants associate with elevated height, improved body fat distribution and protection from coronary artery disease. Our findings prioritize genes for which pharmacologic mimics of pLOF variants may lower risk for disease.

}, keywords = {Databases, Genetic, Diabetes Mellitus, Type 2, Disease, Gene Frequency, Genetic Testing, Genetic Variation, Humans, Obesity, Phenotype, Proteins, Respiratory Hypersensitivity, United Kingdom}, issn = {2041-1723}, doi = {10.1038/s41467-018-03911-8}, author = {Emdin, Connor A and Khera, Amit V and Chaffin, Mark and Klarin, Derek and Natarajan, Pradeep and Aragam, Krishna and Haas, Mary and Bick, Alexander and Zekavat, Seyedeh M and Nomura, Akihiro and Ardissino, Diego and Wilson, James G and Schunkert, Heribert and McPherson, Ruth and Watkins, Hugh and Elosua, Roberto and Bown, Matthew J and Samani, Nilesh J and Baber, Usman and Erdmann, Jeanette and Gupta, Namrata and Danesh, John and Chasman, Daniel and Ridker, Paul and Denny, Joshua and Bastarache, Lisa and Lichtman, Judith H and D{\textquoteright}Onofrio, Gail and Mattera, Jennifer and Spertus, John A and Sheu, Wayne H-H and Taylor, Kent D and Psaty, Bruce M and Rich, Stephen S and Post, Wendy and Rotter, Jerome I and Chen, Yii-Der Ida and Krumholz, Harlan and Saleheen, Danish and Gabriel, Stacey and Kathiresan, Sekar} } @article {43, title = {Genome-wide polygenic scores for common diseases identify individuals with risk equivalent to monogenic mutations.}, journal = {Nat Genet}, volume = {50}, year = {2018}, month = {2018 Sep}, pages = {1219-1224}, abstract = {

A key public health need is to identify individuals at high risk for a given disease to enable enhanced screening or preventive therapies. Because most common diseases have a genetic component, one important approach is to stratify individuals based on inherited DNA variation. Proposed clinical applications have largely focused on finding carriers of rare monogenic mutations at several-fold increased risk. Although most disease risk is polygenic in nature, it has not yet been possible to use polygenic predictors to identify individuals at risk comparable to monogenic mutations. Here, we develop and validate genome-wide polygenic scores for five common diseases. The approach identifies 8.0, 6.1, 3.5, 3.2, and 1.5\% of the population at greater than threefold increased risk for coronary artery disease, atrial fibrillation, type 2 diabetes, inflammatory bowel disease, and breast cancer, respectively. For coronary artery disease, this prevalence is 20-fold higher than the carrier frequency of rare monogenic mutations conferring comparable risk. We propose that it is time to contemplate the inclusion of polygenic risk prediction in clinical care, and discuss relevant issues.

}, issn = {1546-1718}, doi = {10.1038/s41588-018-0183-z}, author = {Khera, Amit V and Chaffin, Mark and Aragam, Krishna G and Haas, Mary E and Roselli, Carolina and Choi, Seung Hoan and Natarajan, Pradeep and Lander, Eric S and Lubitz, Steven A and Ellinor, Patrick T and Kathiresan, Sekar} } @article {12, title = {ANGPTL3 Deficiency and Protection Against Coronary Artery Disease.}, journal = {J Am Coll Cardiol}, volume = {69}, year = {2017}, month = {2017 Apr 25}, pages = {2054-2063}, abstract = {

BACKGROUND: Familial combined hypolipidemia, a Mendelian condition characterized by substantial reductions in all 3~major lipid fractions, is caused by mutations that inactivate the gene angiopoietin-like 3 (ANGPTL3). Whether ANGPTL3 deficiency reduces risk of coronary artery disease (CAD) is unknown.

OBJECTIVES: The study goal was to leverage 3 distinct lines of evidence-a family that included individuals with complete (compound heterozygote) ANGPTL3 deficiency, a population based-study of humans with partial (heterozygote) ANGPTL3 deficiency, and biomarker levels in patients with myocardial infarction (MI)-to test whether ANGPTL3 deficiency is associated with lower risk for CAD.

METHODS: We assessed coronary atherosclerotic burden in 3 individuals with complete ANGPTL3 deficiency and 3~wild-type first-degree relatives using computed tomography angiography. In the population, ANGPTL3 loss-of-function (LOF) mutations were ascertained in up to 21,980 people with CAD and 158,200 control subjects. LOF mutations were~defined as nonsense, frameshift, and splice-site variants, along with missense variants resulting in~<25\% of wild-type ANGPTL3 activity in a mouse model. In a biomarker study, circulating ANGPTL3 concentration was measured in 1,493 people who presented with MI and 3,232 control subjects.

RESULTS: The 3 individuals with complete ANGPTL3 deficiency showed no evidence of coronary atherosclerotic plaque. ANGPTL3 gene sequencing demonstrated that approximately 1 in 309 people was a heterozygous carrier for an LOF mutation. Compared with those without mutation, heterozygous carriers of ANGPTL3 LOF mutations demonstrated a 17\% reduction in circulating triglycerides and a 12\% reduction in low-density lipoprotein cholesterol. Carrier status was associated with a 34\% reduction in odds of CAD (odds ratio: 0.66; 95\% confidence interval: 0.44 to 0.98; p~= 0.04). Individuals in the lowest tertile of circulating ANGPTL3 concentrations, compared with the highest, had reduced odds of MI (adjusted odds ratio: 0.65; 95\% confidence interval: 0.55 to 0.77; p~< 0.001).

CONCLUSIONS: ANGPTL3 deficiency is associated with protection from CAD.

}, keywords = {Adult, Angiopoietin-Like Protein 3, Angiopoietin-like Proteins, Angiopoietins, Animals, Atherosclerosis, Case-Control Studies, Coronary Artery Disease, Female, Humans, Lipids, Male, Mice, Inbred C57BL, Mice, Knockout, Middle Aged, Mutation, Missense, Myocardial Infarction, Risk Factors}, issn = {1558-3597}, doi = {10.1016/j.jacc.2017.02.030}, author = {Stitziel, Nathan O and Khera, Amit V and Wang, Xiao and Bierhals, Andrew J and Vourakis, A Christina and Sperry, Alexandra E and Natarajan, Pradeep and Klarin, Derek and Emdin, Connor A and Zekavat, Seyedeh M and Nomura, Akihiro and Erdmann, Jeanette and Schunkert, Heribert and Samani, Nilesh J and Kraus, William E and Shah, Svati H and Yu, Bing and Boerwinkle, Eric and Rader, Daniel J and Gupta, Namrata and Frossard, Philippe M and Rasheed, Asif and Danesh, John and Lander, Eric S and Gabriel, Stacey and Saleheen, Danish and Musunuru, Kiran and Kathiresan, Sekar} } @article {17, title = {Is Coronary Atherosclerosis One Disease or Many? Setting Realistic Expectations for Precision Medicine.}, journal = {Circulation}, volume = {135}, year = {2017}, month = {2017 03 14}, pages = {1005-1007}, keywords = {Atherosclerosis, Coronary Artery Disease, Humans, Precision Medicine}, issn = {1524-4539}, doi = {10.1161/CIRCULATIONAHA.116.026479}, author = {Khera, Amit V and Kathiresan, Sekar} } @article {33, title = {Genetics of coronary artery disease: discovery, biology and clinical translation.}, journal = {Nat Rev Genet}, volume = {18}, year = {2017}, month = {2017 06}, pages = {331-344}, abstract = {

Coronary artery disease is the leading global cause of mortality. Long recognized to be heritable, recent advances have started to unravel the genetic architecture of the disease. Common variant association studies have linked approximately 60 genetic loci to coronary risk. Large-scale gene sequencing efforts and functional studies have facilitated a better understanding of causal risk factors, elucidated underlying biology and informed the development of new therapeutics. Moving forwards, genetic testing could enable precision medicine approaches by identifying subgroups of patients at increased risk of coronary artery disease or those with a specific driving pathophysiology in whom a therapeutic or preventive approach would be most useful.

}, keywords = {Animals, Coronary Artery Disease, Humans, Precision Medicine, Translational Research, Biomedical}, issn = {1471-0064}, doi = {10.1038/nrg.2016.160}, author = {Khera, Amit V and Kathiresan, Sekar} } @article {21, title = {Polygenic Risk Score Identifies Subgroup With Higher Burden of Atherosclerosis and Greater Relative Benefit From Statin Therapy in the Primary Prevention Setting.}, journal = {Circulation}, volume = {135}, year = {2017}, month = {2017 May 30}, pages = {2091-2101}, abstract = {

BACKGROUND: Relative risk reduction with statin therapy has been consistent across nearly all subgroups studied to date. However, in analyses of 2 randomized controlled primary prevention trials (ASCOT [Anglo-Scandinavian Cardiac Outcomes Trial-Lipid-Lowering Arm] and JUPITER [Justification for the Use of Statins in Prevention: An Intervention Trial Evaluating Rosuvastatin]), statin therapy led to a greater relative risk reduction among a subgroup at high genetic risk. Here, we aimed to confirm this observation in a third primary prevention randomized controlled trial. In addition, we assessed whether those at high genetic risk had a greater burden of subclinical coronary atherosclerosis.

METHODS: We studied participants from a randomized controlled trial of primary prevention with statin therapy (WOSCOPS [West of Scotland Coronary Prevention Study]; n=4910) and 2 observational cohort studies (CARDIA [Coronary Artery Risk Development in Young Adults] and BioImage; n=1154 and 4392, respectively). For each participant, we calculated a polygenic risk score derived from up to 57 common DNA sequence variants previously associated with coronary heart disease. We compared the relative efficacy of statin therapy in those at high genetic risk (top quintile of polygenic risk score) versus all others (WOSCOPS), as well as the association between the polygenic risk score and coronary artery calcification (CARDIA) and carotid artery plaque burden (BioImage).

RESULTS: Among WOSCOPS trial participants at high genetic risk, statin therapy was associated with a relative risk reduction of 44\% (95\% confidence interval [CI], 22-60; <0.001), whereas in all others, the relative risk reduction was 24\% (95\% CI, 8-37; =0.004) despite similar low-density lipoprotein cholesterol lowering. In a study-level meta-analysis across the WOSCOPS, ASCOT, and JUPITER primary prevention, relative risk reduction in those at high genetic risk was 46\% versus 26\% in all others ( for heterogeneity=0.05). Across all 3 studies, the absolute risk reduction with statin therapy was 3.6\% (95\% CI, 2.0-5.1) among those in the high genetic risk group and 1.3\% (95\% CI, 0.6-1.9) in all others. Each 1-SD increase in the polygenic risk score was associated with 1.32-fold (95\% CI, 1.04-1.68) greater likelihood of having coronary artery calcification and 9.7\% higher (95\% CI, 2.2-17.8) burden of carotid plaque.

CONCLUSIONS: Those at high genetic risk have a greater burden of subclinical atherosclerosis and derive greater relative and absolute benefit from statin therapy to prevent a first coronary heart disease event.

CLINICAL TRIAL REGISTRATION: URL: http://www.clinicaltrials.gov. Unique identifiers: NCT00738725 (BioImage) and NCT00005130 (CARDIA). WOSCOPS was carried out and completed before the requirement for clinical trial registration.

}, keywords = {Adolescent, Adult, Aged, Aged, 80 and over, Atherosclerosis, Cohort Studies, Cost of Illness, Female, Humans, Hydroxymethylglutaryl-CoA Reductase Inhibitors, Male, Middle Aged, Multifactorial Inheritance, Primary Prevention, Risk Factors, Young Adult}, issn = {1524-4539}, doi = {10.1161/CIRCULATIONAHA.116.024436}, author = {Natarajan, Pradeep and Young, Robin and Stitziel, Nathan O and Padmanabhan, Sandosh and Baber, Usman and Mehran, Roxana and Sartori, Samantha and Fuster, Valentin and Reilly, Dermot F and Butterworth, Adam and Rader, Daniel J and Ford, Ian and Sattar, Naveed and Kathiresan, Sekar} } @article {8, title = {Genetic Risk, Adherence to a Healthy Lifestyle, and Coronary Disease.}, journal = {N Engl J Med}, volume = {375}, year = {2016}, month = {2016 Dec 15}, pages = {2349-2358}, abstract = {

BACKGROUND: Both genetic and lifestyle factors contribute to individual-level risk of coronary artery disease. The extent to which increased genetic risk can be offset by a healthy lifestyle is unknown.

METHODS: Using a polygenic score of DNA sequence polymorphisms, we quantified genetic risk for coronary artery disease in three prospective cohorts - 7814 participants in the Atherosclerosis Risk in Communities (ARIC) study, 21,222 in the Women{\textquoteright}s Genome Health Study (WGHS), and 22,389 in the Malm{\"o} Diet and Cancer Study (MDCS) - and in 4260 participants in the cross-sectional BioImage Study for whom genotype and covariate data were available. We also determined adherence to a healthy lifestyle among the participants using a scoring system consisting of four factors: no current smoking, no obesity, regular physical activity, and a healthy diet.

RESULTS: The relative risk of incident coronary events was 91\% higher among participants at high genetic risk (top quintile of polygenic scores) than among those at low genetic risk (bottom quintile of polygenic scores) (hazard ratio, 1.91; 95\% confidence interval [CI], 1.75 to 2.09). A favorable lifestyle (defined as at least three of the four healthy lifestyle factors) was associated with a substantially lower risk of coronary events than an unfavorable lifestyle (defined as no or only one healthy lifestyle factor), regardless of the genetic risk category. Among participants at high genetic risk, a favorable lifestyle was associated with a 46\% lower relative risk of coronary events than an unfavorable lifestyle (hazard ratio, 0.54; 95\% CI, 0.47 to 0.63). This finding corresponded to a reduction in the standardized 10-year incidence of coronary events from 10.7\% for an unfavorable lifestyle to 5.1\% for a favorable lifestyle in ARIC, from 4.6\% to 2.0\% in WGHS, and from 8.2\% to 5.3\% in MDCS. In the BioImage Study, a favorable lifestyle was associated with significantly less coronary-artery calcification within each genetic risk category.

CONCLUSIONS: Across four studies involving 55,685 participants, genetic and lifestyle factors were independently associated with susceptibility to coronary artery disease. Among participants at high genetic risk, a favorable lifestyle was associated with a nearly 50\% lower relative risk of coronary artery disease than was an unfavorable lifestyle. (Funded by the National Institutes of Health and others.).

}, keywords = {Aged, Cohort Studies, Coronary Disease, Cross-Sectional Studies, Female, Genetic Predisposition to Disease, Healthy Lifestyle, Humans, Incidence, Male, Middle Aged, Multifactorial Inheritance, Patient Compliance, Polymorphism, Genetic, Risk}, issn = {1533-4406}, doi = {10.1056/NEJMoa1605086}, author = {Khera, Amit V and Emdin, Connor A and Drake, Isabel and Natarajan, Pradeep and Bick, Alexander G and Cook, Nancy R and Chasman, Daniel I and Baber, Usman and Mehran, Roxana and Rader, Daniel J and Fuster, Valentin and Boerwinkle, Eric and Melander, Olle and Orho-Melander, Marju and Ridker, Paul M and Kathiresan, Sekar} }