Are drug targets with genetic support twice as likely to be approved? Revised estimates of the impact of genetic support for drug mechanisms on the probability of drug approval.
paper
Cited
Public
- Authors
- King, Emily A; Davis, J Wade; Degner, Jacob F
- Year
- 2019
- Journal
- PLoS genetics
- PMID
- 31830040
- DOI
- 10.1371/journal.pgen.1008489
- PMCID
- PMC6907751
Despite strong vetting for disease activity, only 10% of candidate new molecular entities in early stage clinical trials are eventually approved. Analyzing historical pipeline data, Nelson et al. 2015 (Nat. Genet.) concluded pipeline drug targets with human genetic evidence of disease association are twice as likely to lead to approved drugs. Taking advantage of recent clinical development advances and rapid growth in GWAS datasets, we extend the original work using updated data, test whether genetic evidence predicts future successes and introduce statistical models adjusting for target and indication-level properties. Our work confirms drugs with genetically supported targets were more likely to be successful in Phases II and III. When causal genes are clear (Mendelian traits and GWAS associations linked to coding variants), we find the use of human genetic evidence increases approval by greater than two-fold, and, for Mendelian associations, the positive association holds prospectively. Our findings suggest investments into genomics and genetics are likely to be beneficial to companies deploying this strategy.
Estimated effect of evidence from human genetic studies on the probability of advancing in clinical development.A: Partitioning Pharmaprojects, OMIM, and GWAS Catalog into training data available to Nelson et al. 2015 and validation sets. We use validation set Pipeline Progression, consisting of target-indication pairs assigned a clinical phase in 2013, to determine whether gene target-indication pairs with genetic evidence were more likely to advance to the next pipeline phase from 2013-2018. Pharmaprojects target-indication pairs absent from or assigned an unknown clinical phase in the Nelson et al. dataset form the New Pipeline replication set. Pharmaprojects target-indication pairs approved prior to 2013 or with unknown phase in our dataset are not part of any replication set. B: Our estimates of the effect of genetic evidence on gene target-indication pair progression compared to values reported by Nelson et al. 2015 [3] in validation sets New Pipeline (drugs and indications > 2013, 2013 inactive drugs) New Genetic (only new genetic information > 2013) Pipeline Progression, and in the full updated dataset (Full Data). Estimates falling close to the identity line (shown in black) are consistent between the two analyses.
Estimated odds ratio of gene target-indication pair attaining approval, as a function of similarity between drug indication and the most similar trait associated with the target.A: Left: All genetic associations. Right: Only genetic associations reported after 2013 download. B: Effect of LD expansion threshold R2 on the estimated approval odds ratio of a drug gene target-indication pair supported by a GWAS high-moderate deleterious variant. Posterior median and pointwise 95% credible interval from Bayesian logistic regression.
| # | Section | Preview |
|---|---|---|
| 40 | Materials and methods โ Statistical analysis โ Bayesian logistic regression | All models were fit in Stan [35] using four chains with default initialization and run settings. |
| 41 | Materials and methods โ Statistical analysis โ Bayesian logistic regression | Prior parameters ฮผa = -2.2, ฯa = 0.75 was chosen to reflect prior knowledge that approximately 10%โฆ |
| 42 | Materials and methods โ Statistical analysis โ Bayesian logistic regression | In this analysis we depart from the original Nelson et al. approach and exclude all drugs assignedโฆ |
| 43 | Materials and methods โ Code availability | Code and data tables required to reproduce the main text figures are provided on Githubโฆ |
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| Genetic and Epigenetic Landscape for Drug Development in Polycystic Ovary Syndrome. | Chen Y et al. | โ | 2024 | โ |
| Genetic and multi-omic risk assessment of Alzheimer's disease implicates core associated biological domains. | Cary GA et al. | โ | 2024 | โ |
| Genetic evidence for efficacy of targeting IL-2, IL-6 and TYK2 signalling in the prevention of type 1 diabetes: a Mendelian randomisation study. | Heikkilรค TE et al. | โ | 2024 | โ |
| Genetic factors associated with reasons for clinical trial stoppage. | Razuvayevskaya O et al. | โ | 2024 | โ |
| Genetics of chronic respiratory disease. | Sayers I et al. | โ | 2024 | โ |
| GETdb: A comprehensive database for genetic and evolutionary features of drug targets. | Zhang Q et al. | โ | 2024 | โ |
| High-throughput identification of functional regulatory SNPs in systemic lupus erythematosus. | Wang Q et al. | โ | 2024 | โ |
| HOPX-associated molecular programs control cardiomyocyte cell states underpinning cardiac structure and function. | Friedman CE et al. | โ | 2024 | โ |
| How to translate genetic findings into clinical applications in spondyloarthritis? | Frison E et al. | โ | 2024 | โ |
| Human genetics and epigenetics of alcohol use disorder. | Zhou H et al. | โ | 2024 | โ |
| Human Genetics and Genomics for Drug Target Identification and Prioritization: Open Targets' Perspective. | McDonagh EM et al. | โ | 2024 | โ |
| IBDTransDB: a manually curated transcriptomic database for inflammatory bowel disease. | Avram V et al. | โ | 2024 | โ |
| Identification of Genetic Loci Associated With Intracerebral Hemorrhage Using a Multitrait Analysis Approach. | Muiรฑo E et al. | โ | 2024 | โ |
| Identifying genetically-supported drug repurposing targets for non-small cell lung cancer through mendelian randomization of the druggable genome. | Feng Y et al. | โ | 2024 | โ |
| Lessons From The Glaucoma Foundation Think Tank 2023: A Patient-Centric Approach to Glaucoma. | Harris A et al. | โ | 2024 | โ |
| Leveraging large-scale multi-omics evidences to identify therapeutic targets from genome-wide association studies. | Lessard S et al. | โ | 2024 | โ |
| Mapping the functional impact of non-coding regulatory elements in primary T cells through single-cell CRISPR screens. | Alda-Catalinas C et al. | โ | 2024 | โ |
| Multi-omics Mendelian randomization integrating GWAS, eQTL, and mQTL data identified genes associated with breast cancer. | Zhang Z et al. | โ | 2024 | โ |
| Novel candidate plasma proteins for the pathogenesis and treatment of atopic dermatitis revealed by proteome-wide association study. | Luo C et al. | โ | 2024 | โ |
| Novel insight into the etiology of ischemic stroke gained by integrative multiome-wide association study. | Jung J et al. | โ | 2024 | โ |
| omicSynth: An open multi-omic community resource for identifying druggable targets across neurodegenerative diseases. | Alvarado CX et al. | โ | 2024 | โ |
| Potential drug targets for osteoporosis identified: A Mendelian randomization study. | Zhao G et al. | โ | 2024 | โ |
| Potential therapeutic targets for membranous nephropathy: proteome-wide Mendelian randomization and colocalization analysis. | Su Z et al. | โ | 2024 | โ |
| Prioritising genetic findings for drug target identification and validation. | Hukerikar N et al. | โ | 2024 | โ |
| Proprotein convertase subtilisin/kexin type 9 as a drug target for abdominal aortic aneurysm. | Golledge J et al. | โ | 2024 | โ |
| Proteome-Wide Multicenter Mendelian Randomization Analysis to Identify Novel Therapeutic Targets for Lung Cancer. | Wang K et al. | โ | 2024 | โ |
| Refining the impact of genetic evidence on clinical success. | Minikel EV et al. | โ | 2024 | โ |
| Renshen Yangrong decoction for secondary malaise and fatigue: network pharmacology and Mendelian randomization study. | Wang F et al. | โ | 2024 | โ |
| RNA interference in the era of nucleic acid therapeutics. | Jadhav V et al. | โ | 2024 | โ |
| Rodent genetically modified models of glaucoma. | Loo Y et al. | โ | 2024 | โ |
| Sequential immunotherapy: towards cures for autoimmunity. | Ramรญrez-Valle F et al. | โ | 2024 | โ |
| Sex-dependent placental methylation quantitative trait loci provide insight into the prenatal origins of childhood onset traits and conditions. | Casazza W et al. | โ | 2024 | โ |
| Shared etiology of Mendelian and complex disease supports drug discovery. | Lalagkas PN et al. | โ | 2024 | โ |
| Shared genetics between breast cancer and predisposing diseases identifies novel breast cancer treatment candidates. | Lalagkas PN et al. | โ | 2024 | โ |
| SMIM1 absence is associated with reduced energy expenditure and excess weight. | Stefanucci L et al. | โ | 2024 | โ |
| Stopped clinical trials give evidence for the value of genetics. | King E | โ | 2024 | โ |
| Stroke Genetics, Genomics, and Precision Medicine. | Debette S et al. | โ | 2024 | โ |
| Systematic discovery of gene-environment interactions underlying the human plasma proteome in UK Biobank. | Hillary RF et al. | โ | 2024 | โ |
| Systematic druggable genome-wide Mendelian randomization identifies therapeutic targets for hyperemesis gravidarum. | Wang F et al. | โ | 2024 | โ |
| Systematic druggable genome-wide Mendelian randomization identifies therapeutic targets for lung cancer. | Song W et al. | โ | 2024 | โ |
| Systemic lupus erythematosus genetics: insights into pathogenesis and implications for therapy. | Ghodke-Puranik Y et al. | โ | 2024 | โ |
| The broken Alzheimer's disease genome. | Gouveia Roque C et al. | โ | 2024 | โ |
| The effects of methylphenidate and atomoxetine on Drosophila brain at single-cell resolution and potential drug repurposing for ADHD treatment. | Qu S et al. | โ | 2024 | โ |
| The Role of Genetics in Advancing Cardiometabolic Drug Development. | Abou-Karam R et al. | โ | 2024 | โ |
| Transcriptome-Wide Association Studies (TWAS): Methodologies, Applications, and Challenges. | Evans P et al. | โ | 2024 | โ |
| Trends in drug development for rare and intractable diseases based on the KEGG NETWORK. | Tanabe M et al. | โ | 2024 | โ |
| Unveiling new genetic insights in rheumatoid arthritis for drug discovery through Taxonomy3 analysis. | Kozlowska J et al. | โ | 2024 | โ |
| Unveiling novel genetic variants in 370 challenging medically relevant genes using the long read sequencing data of 41 samples from 19 global populations. | Ji Y et al. | โ | 2024 | โ |
| Unveiling promising drug targets for autism spectrum disorder: insights from genetics, transcriptomics, and proteomics. | Jiang R et al. | โ | 2024 | โ |
| Using gene or cell therapies to treat Huntington's disease. | Binda CS et al. | โ | 2024 | โ |
| Using Mendelian randomization provides genetic insights into potential targets for sepsis treatment. | Xia R et al. | โ | 2024 | โ |
| Validation of TYK2 and exploration of PRSS36 as drug targets for psoriasis using Mendelian randomization. | Guo X et al. | โ | 2024 | โ |
| ACSS2 gene variants determine kidney disease risk by controlling de novo lipogenesis in kidney tubules. | Mukhi D et al. | โ | 2023 | โ |
| A gene regulatory network approach harmonizes genetic and epigenetic signals and reveals repurposable drug candidates for multiple sclerosis. | Manuel AM et al. | โ | 2023 | โ |
| Allosteric TYK2 inhibition: redefining autoimmune disease therapy beyond JAK1-3 inhibitors. | Jensen LT et al. | โ | 2023 | โ |
| A publication-wide association study (PWAS), historical language models to prioritise novel therapeutic drug targets. | Narganes-Carlรณn D et al. | โ | 2023 | โ |
| Artificial intelligence and machine-learning approaches in structure and ligand-based discovery of drugs affecting central nervous system. | Gautam V et al. | โ | 2023 | โ |
| Artificial intelligence for dementia drug discovery and trials optimization. | Doherty T et al. | โ | 2023 | โ |
| A Shared Genetic Signature for Common Chronic Pain Conditions and its Impact on Biopsychosocial Traits. | Farrell SF et al. | โ | 2023 | โ |
| Association between genetically proxied PCSK9 inhibition and prostate cancer risk: A Mendelian randomisation study. | Fang S et al. | โ | 2023 | โ |
| Association between Neuroligin-1 polymorphism and plasma glutamine levels in individuals with autism spectrum disorder. | Lee IH et al. | โ | 2023 | โ |
| Biological and functional multimorbidity-from mechanisms to management. | Langenberg C et al. | โ | 2023 | โ |
| Cardioinformatics Advancements in Healthcare and Biotechnology. | Khomtchouk BB | โ | 2023 | โ |
| Causal inference in drug discovery and development. | Michoel T et al. | โ | 2023 | โ |
| Converging evidence from exome sequencing and common variants implicates target genes for osteoporosis. | Zhou S et al. | โ | 2023 | โ |
| CRISPR screens identify gene targets at breast cancer risk loci. | Tuano NK et al. | โ | 2023 | โ |
| Decoding the genetic and epigenetic basis of asthma. | Stikker BS et al. | โ | 2023 | โ |
| Discovering Biological Mechanisms of Exceptional Human Health Span and Life Span. | Milman S et al. | โ | 2023 | โ |
| DNA and RNA Molecules as a Foundation of Therapy Strategies for Treatment of Cardiovascular Diseases. | Rakicevic L | โ | 2023 | โ |
| DNA hypomethylation by fisetin preserves mitochondria functional genes and contributes to the protection of I/R rat heart. | Boovarahan SR et al. | โ | 2023 | โ |
| Epigenetics as a mediator of genetic risk in osteoarthritis: role during development, homeostasis, aging, and disease progression. | Richard D et al. | โ | 2023 | โ |
| Evolution-strengthened knowledge graph enables predicting the targetability and druggability of genes. | Quan Y et al. | โ | 2023 | โ |
| Examining the shared etiology of psychopathology with genome-wide association studies. | Mallard TT et al. | โ | 2023 | โ |
| Expanding causal genes for Parkinson's disease via multi-omics analysis. | Gu XJ et al. | โ | 2023 | โ |
| From function to translation: Decoding genetic susceptibility to human diseases via artificial intelligence. | Long E et al. | โ | 2023 | โ |
| From target discovery to clinical drug development with human genetics. | Trajanoska K et al. | โ | 2023 | โ |
| Future prospects for human genetics and genomics in drug discovery. | Ghoussaini M et al. | โ | 2023 | โ |
| Genetic and molecular biomarkers for geographic atrophy. | Riley-Gillis B et al. | โ | 2023 | โ |
| Genetic Determinants of the Acute Respiratory Distress Syndrome. | Suarez-Pajes E et al. | โ | 2023 | โ |
| Genetic predictors of lifelong medication-use patterns in cardiometabolic diseases. | Kiiskinen T et al. | โ | 2023 | โ |
| Genetics of varicose veins reveals polygenic architecture and genetic overlap with arterial and venous disease. | Levin MG et al. | โ | 2023 | โ |
| Germline mechanisms of immunotherapy toxicities in the era of genome-wide association studies. | Gusev A | โ | 2023 | โ |
| GLUT9 as a potential drug target for chronic kidney disease: Drug target validation by a Mendelian randomization study. | Ueda M et al. | โ | 2023 | โ |
| Harnessing the potential of machine learning and artificial intelligence for dementia research. | Ranson JM et al. | โ | 2023 | โ |
| Harnessing the Power of Electronic Health Records and Genomics for Drug Discovery. | Krebs K et al. | โ | 2023 | โ |
| Identification of potential drug targets for rheumatoid arthritis from genetic insights: a Mendelian randomization study. | Cao Y et al. | โ | 2023 | โ |
| Identifying Genes Associated with Alzheimer's Disease Using Gene-Based Polygenic Risk Score. | Lai D et al. | โ | 2023 | โ |
| Inhibition of Canonical Transient Receptor Potential Channels 4/5 with Highly Selective and Potent Small-Molecule HC-070 Alleviates Mechanical Hypersensitivity in Rat Models of Visceral and Neuropathic Pain. | Jalava N et al. | โ | 2023 | โ |
| Insights from multi-omics integration in complex disease primary tissues. | Kreitmaier P et al. | โ | 2023 | โ |
| Integrative GWAS and co-localisation analysis suggests novel genes associated with age-related multimorbidity. | West CE et al. | โ | 2023 | โ |
| KidneyGPS: a user-friendly web application to help prioritize kidney function genes and variants based on evidence from genome-wide association studies. | Stanzick KJ et al. | โ | 2023 | โ |
| Locus for severity implicates CNS resilience in progression of multiple sclerosis. | International Multiple Sclerosis Genetics Consortium et al. | โ | 2023 | โ |
| Loss of phospholipase PLAAT3 causes a mixed lipodystrophic and neurological syndrome due to impaired PPARฮณ signaling. | Schuermans N et al. | โ | 2023 | โ |
| LRRK2-Targeting Therapies March Through the Valley of Death. | West AB et al. | โ | 2023 | โ |
| Male-pattern hair loss: Comprehensive identification of the associated genes as a basis for understanding pathophysiology. | Henne SK et al. | โ | 2023 | โ |
| Mendelian randomization as a tool to inform drug development using human genetics. | Daghlas I et al. | โ | 2023 | โ |
| Molecular Landscape of Tourette's Disorder. | Widomska J et al. | โ | 2023 | โ |
| Multi-ancestry meta-analysis and fine-mapping in Alzheimer's disease. | Lake J et al. | โ | 2023 | โ |
| Multi-layered genetic approaches to identify approved drug targets. | Sadler MC et al. | โ | 2023 | โ |
| New Drug Targets and Preclinical Modelling Recommendations for Treating Acute Myocardial Infarction. | Cao Y et al. | โ | 2023 | โ |
| On the way to translate GWAS into kidney disease mechanisms. | Devuyst O et al. | โ | 2023 | โ |
| Partial gene suppression improves identification of cancer vulnerabilities when CRISPR-Cas9 knockout is pan-lethal. | Krill-Burger JM et al. | โ | 2023 | โ |
| Pharmacogenomics: current status and future perspectives. | Pirmohamed M | โ | 2023 | โ |
| Plasma proteomic associations with genetics and health in the UK Biobank. | Sun BB et al. | โ | 2023 | โ |
| Plasma Proteomics to Identify Drug Targets for Ischemic Heart Disease. | Mazidi M et al. | โ | 2023 | โ |
| Predicting ExWAS findings from GWAS data: a shorter path to causal genes. | Liang KYH et al. | โ | 2023 | โ |
| Priority index for asthma (PIA): In silico discovery of shared and distinct drug targets for adult- and childhood-onset disease. | Bao C et al. | โ | 2023 | โ |
| Projecting genetic associations through gene expression patterns highlights disease etiology and drug mechanisms. | Pividori M et al. | โ | 2023 | โ |
| Rare and Common Variants in GALNT3 May Affect Bone Mass Independently of Phosphate Metabolism. | Hassan N et al. | โ | 2023 | โ |
| Single-cell genomics meets human genetics. | Cuomo ASE et al. | โ | 2023 | โ |
| Single-cell-led drug repurposing for Alzheimer's disease. | Parolo S et al. | โ | 2023 | โ |
| Study profile: the Genetics of Glaucoma Study. | Gharahkhani P et al. | โ | 2023 | โ |
| SuperAger Initiative: unlocking the genetic potential of exceptional longevity. | Milman S et al. | โ | 2023 | โ |
| Systematic druggable genome-wide Mendelian randomisation identifies therapeutic targets for Alzheimer's disease. | Su WM et al. | โ | 2023 | โ |
| The next-generation Open Targets Platform: reimagined, redesigned, rebuilt. | Ochoa D et al. | โ | 2023 | โ |
| The potential of integrating human and mouse discovery platforms to advance our understanding of cardiometabolic diseases. | Jurrjens AW et al. | โ | 2023 | โ |
| The Potential to Inform Statin Use in Multiple Sclerosis Through Human Genetics. | Buyukkurt A et al. | โ | 2023 | โ |
| The Power of Clinical Diagnosis for Deciphering Complex Genetic Mechanisms in Rare Diseases. | Shu L et al. | โ | 2023 | โ |
| The Singapore National Precision Medicine Strategy. | Wong E et al. | โ | 2023 | โ |
| The Type 2 Diabetes Knowledge Portal: An open access genetic resource dedicated to type 2 diabetes and related traits. | Costanzo MC et al. | โ | 2023 | โ |
| TIE1 and TEK signalling, intraocular pressure, and primary open-angle glaucoma: a Mendelian randomization study. | Rajasundaram S et al. | โ | 2023 | โ |
| UK Biobank: a globally important resource for cancer research. | Conroy MC et al. | โ | 2023 | โ |
| Use of big data and machine learning algorithms to extract possible treatment targets in neurodevelopmental disorders. | Malik MA et al. | โ | 2023 | โ |
| Using genetic association data to guide drug discovery and development: Review of methods and applications. | Burgess S et al. | โ | 2023 | โ |
| Using human genetics to improve safety assessment of therapeutics. | Carss KJ et al. | โ | 2023 | โ |
| Whole genome sequencing across clinical trials identifies rare coding variants in GPR68 associated with chemotherapy-induced peripheral neuropathy. | Khan Z et al. | โ | 2023 | โ |
| A conditional gene-based association framework integrating isoform-level eQTL data reveals new susceptibility genes for schizophrenia. | Li X et al. | โ | 2022 | โ |
| A cross-species approach using an inย vivo evaluation platform in mice demonstrates that sequence variation in human RABEP2 modulates ischemic stroke outcomes. | Lee HK et al. | โ | 2022 | โ |
| A functional <i>TGFB1</i> polymorphism in the donor associates with long-term graft survival after kidney transplantation. | Poppelaars F et al. | โ | 2022 | โ |
| A Mendelian randomization study investigating the causal role of inflammation on Parkinson's disease. | Bottigliengo D et al. | โ | 2022 | โ |
| Analytical Considerations of Large-Scale Aptamer-Based Datasets for Translational Applications. | Jiang W et al. | โ | 2022 | โ |
| An effector index to predict target genes at GWAS loci. | Forgetta V et al. | โ | 2022 | โ |
| An interleukin 6-based genetic risk score strengthened with interleukin 10 polymorphisms associated with long-term kidney allograft outcomes. | Eskandari SK et al. | โ | 2022 | โ |
| A novel 'social contract' - An attempt to harmonize a sponsor's exploratory research with a clinical study participant's data rights. | Mignon L et al. | โ | 2022 | โ |
| A practical guideline of genomics-driven drug discovery in the era of global biobank meta-analysis. | Namba S et al. | โ | 2022 | โ |
| A resource for integrated genomic analysis of the human liver. | Zhou YH et al. | โ | 2022 | โ |
| Association between psychiatric hospitalizations of patients with schizophrenia and polygenic risk scores based on genes with altered expression by antipsychotics. | Facal F et al. | โ | 2022 | โ |
| Associations of Polygenic Risk Score for Late-Onset Alzheimer's Disease With Biomarkers. | Li Q et al. | โ | 2022 | โ |
| Bridging the splicing gap in human genetics with long-read RNA sequencing: finding the protein isoform drivers of disease. | Castaldi PJ et al. | โ | 2022 | โ |
| Combinational Drug Repurposing from Genetic Networks Applied to Alzheimer's Disease. | Nabirotchkin S et al. | โ | 2022 | โ |
| Coming of Age: Human Genomics and the Cancer-Immune Set Point. | Hammer C et al. | โ | 2022 | โ |
| COVID-19: impact on Public Health and hypothesis-driven investigations on genetic susceptibility and severity. | David S et al. | โ | 2022 | โ |
| Differential and shared genetic effects on kidney function between diabetic and non-diabetic individuals. | Winkler TW et al. | โ | 2022 | โ |
| Disease stages and therapeutic hypotheses in two decades of neurodegenerative disease clinical trials. | Mortberg MA et al. | โ | 2022 | โ |
| DrugnomeAI is an ensemble machine-learning framework for predicting druggability of candidate drug targets. | Raies A et al. | โ | 2022 | โ |
| Drug re-engineering and repurposing: A significant and rapid approach to tuberculosis drug discovery. | Reddy DS et al. | โ | 2022 | โ |
| Framework for Clinical Trials in Cerebral Small Vessel Disease (FINESSE): A Review. | Markus HS et al. | โ | 2022 | โ |
| Gene-based polygenic risk scores analysis of alcohol use disorder in African Americans. | Lai D et al. | โ | 2022 | โ |
| Genetic associations of protein-coding variants in human disease. | Sun BB et al. | โ | 2022 | โ |
| Genetic Association Study Advances Idiopathic Pulmonary Fibrosis Pathophysiology and Health Equity. | Hobbs BD | โ | 2022 | โ |
| Genetic loci and prioritization of genes for kidney function decline derived from a meta-analysis of 62 longitudinal genome-wide association studies. | Gorski M et al. | โ | 2022 | โ |
| Genetics of multiple sclerosis: lessons from polygenicity. | Goris A et al. | โ | 2022 | โ |
| Genome-wide analysis of 102,084 migraine cases identifies 123 risk loci and subtype-specific risk alleles. | Hautakangas H et al. | โ | 2022 | โ |
| Genomic Evidence Supports the Recognition of Endometriosis as an Inflammatory Systemic Disease and Reveals Disease-Specific Therapeutic Potentials of Targeting Neutrophil Degranulation. | Bao C et al. | โ | 2022 | โ |
| Harnessing Big Data to Advance Treatment and Understanding of Pulmonary Hypertension. | Rhodes CJ et al. | โ | 2022 | โ |
| How Genetics Can Improve Clinical Practice in Chronic Kidney Disease: From Bench to Bedside. | Piras D et al. | โ | 2022 | โ |
| Identification of genetic loci simultaneously associated with multiple cardiometabolic traits. | Wood AC et al. | โ | 2022 | โ |
| Identification of human gene research articles with wrongly identified nucleotide sequences. | Park Y et al. | โ | 2022 | โ |
| Identifying Genetic Variants and Metabolites Associated with Rapid Estimated Glomerular Filtration Rate Decline in Korea Based on Genome-Metabolomic Integrative Analysis. | Lee S et al. | โ | 2022 | โ |
| Identifying novel proteins underlying schizophrenia via integrating pQTLs of the plasma, CSF, and brain with GWAS summary data. | Gu X et al. | โ | 2022 | โ |
| Integrating human brain proteomes with genome-wide association data implicates novel proteins in post-traumatic stress disorder. | Wingo TS et al. | โ | 2022 | โ |
| Integration of GWAS and brain transcriptomic analyses in a multiethnic sample of 35,245 older adults identifies DCDC2 gene as predictor of episodic memory maintenance. | Gao Y et al. | โ | 2022 | โ |
| Integrative Analyses of Transcriptomes to Explore Common Molecular Effects of Antipsychotic Drugs. | Truong TTT et al. | โ | 2022 | โ |
| Integrative analysis of 3604 GWAS reveals multiple novel cell type-specific regulatory associations. | Breeze CE et al. | โ | 2022 | โ |
| Linking GWAS to pharmacological treatments for psychiatric disorders | Arnatkeviciute A et al. | โ | 2022 | โ |
| Little genomic support for Cyclophilin A-matrix metalloproteinase-9 pathway as a therapeutic target for cognitive impairment in APOE4 carriers. | Anderson EL et al. | โ | 2022 | โ |
| Mendelian randomization of circulating proteome identifies actionable targets in heart failure. | Moncla LM et al. | โ | 2022 | โ |
| Molecular genetics of cocaine use disorders in humans. | Fernร ndez-Castillo N et al. | โ | 2022 | โ |
| Multi-modality machine learning predicting Parkinson's disease. | Makarious MB et al. | โ | 2022 | โ |
| Network analysis of genome-wide association studies for drug target prioritisation. | Barrio-Hernandez I et al. | โ | 2022 | โ |
| Network-Driven Drug Discovery. | Wray J et al. | โ | 2022 | โ |
| Neuroimmune contributions to Alzheimer's disease: a focus on human data. | Haage V et al. | โ | 2022 | โ |
| Neuropathologic Correlates of Human Cortical Proteins in Alzheimer Disease and Related Dementias. | Yu L et al. | โ | 2022 | โ |
| Optimizing Translational Research for Exceptional Health and Life Span: A Systematic Narrative of Studies to Identify Translatable Therapeutic Target(s) for Exceptional Health Span in Humans. | Raghavachari N et al. | โ | 2022 | โ |
| Organization of gene programs revealed by unsupervised analysis of diverse gene-trait associations. | Mizikovsky D et al. | โ | 2022 | โ |
| PiER: web-based facilities tailored for genetic target prioritisation harnessing human disease genetics, functional genomics and protein interactions. | Fang H | โ | 2022 | โ |
| Preclinical target validation for non-addictive therapeutics development for pain. | Hargreaves R et al. | โ | 2022 | โ |
| Predictive validity in drug discovery: what it is, why it matters and how to improve it. | Scannell JW et al. | โ | 2022 | โ |
| Priority index: database of genetic targets in immune-mediated disease. | Fang H et al. | โ | 2022 | โ |
| Rare and undiagnosed diseases: From disease-causing gene identification to mechanism elucidation. | Wang G et al. | โ | 2022 | โ |
| Rare loss of function variants in the hepatokine gene INHBE protect from abdominal obesity. | Deaton AM et al. | โ | 2022 | โ |
| Selecting the right therapeutic target for kidney disease. | Buvall L et al. | โ | 2022 | โ |
| Shared mechanisms across the major psychiatric and neurodegenerative diseases. | Wingo TS et al. | โ | 2022 | โ |
| Systematic indication extension for drugs using patient stratification insights generated by combinatorial analytics. | Das S et al. | โ | 2022 | โ |
| The genetic basis for adult onset glaucoma: Recent advances and future directions. | Wang Z et al. | โ | 2022 | โ |
| The grand challenge of discovering new cardiovascular drugs. | Hong CC | โ | 2022 | โ |
| The immunology of multiple sclerosis. | Attfield KE et al. | โ | 2022 | โ |
| The landscape of GWAS validation; systematic review identifying 309 validated non-coding variants across 130 human diseases. | Alsheikh AJ et al. | โ | 2022 | โ |
| Translational advances of melanocortin drugs: Integrating biology, chemistry and genetics. | Montero-Melendez T et al. | โ | 2022 | โ |
| Tumor Necrosis Factor-ฮฑ Gene Polymorphism is Associated with Short- and Long-Term Kidney Allograft Outcomes. | Poppelaars F et al. | โ | 2022 | โ |
| Using causal methods to map symptoms to brain circuits in neurodevelopment disorders: moving from identifying correlates to developing treatments. | Cohen AL | โ | 2022 | โ |
| Variations of SARS-CoV-2 in the Iranian population and candidate putative drug-like compounds to inhibit the mutated proteins. | Mortezaei Z et al. | โ | 2022 | โ |
| A catalog of GWAS fine-mapping efforts in autoimmune disease. | Caliskan M et al. | โ | 2021 | โ |
| Accelerating Medicines Partnership: Parkinson's Disease. Genetic Resource. | Iwaki H et al. | โ | 2021 | โ |
| Advancing drug discovery using the power of the human genome. | Heilbron K et al. | โ | 2021 | โ |
| AI models and the future of genomic research and medicine: True sons of knowledge?: Artificial intelligence needs to be integrated with causal conceptions in biomedicine to harness its societal benefits for the field. | Kรถnig H et al. | โ | 2021 | โ |
| Artificial intelligence in drug discovery: what is realistic, what are illusions? Part 1: Ways to make an impact, and why we are not there yet. | Bender A et al. | โ | 2021 | โ |
| Association of Antihypertensive Drug Target Genes With Psychiatric Disorders: A Mendelian Randomization Study. | Chauquet S et al. | โ | 2021 | โ |
| dbTMM: an integrated database of large-scale cohort, genome and clinical data for the Tohoku Medical Megabank Project. | Ogishima S et al. | โ | 2021 | โ |
| Dissecting polygenic signals from genome-wide association studies on human behaviour. | Abdellaoui A et al. | โ | 2021 | โ |
| Donor genetic variants in interleukin-6 and interleukin-6 receptor associate with biopsy-proven rejection following kidney transplantation. | Poppelaars F et al. | โ | 2021 | โ |
| Effect of longevity genetic variants on the molecular aging rate. | Gurinovich A et al. | โ | 2021 | โ |
| Estimating colocalization probability from limited summary statistics. | King EA et al. | โ | 2021 | โ |
| Expanding the drug discovery space with predicted metabolite-target interactions. | Nuzzo A et al. | โ | 2021 | โ |
| Finding genetically-supported drug targets for Parkinson's disease using Mendelian randomization of the druggable genome. | Storm CS et al. | โ | 2021 | โ |
| Fine-mapping, trans-ancestral and genomic analyses identify causal variants, cells, genes and drug targets for type 1 diabetes. | Robertson CC et al. | โ | 2021 | โ |
| From the Genetics of Ankylosing Spondylitis to New Biology and Drug Target Discovery. | Nancy Z et al. | โ | 2021 | โ |
| From variant to function in human disease genetics. | Lappalainen T et al. | โ | 2021 | โ |
| Gaining insight into metabolic diseases from human genetic discoveries. | Claussnitzer M et al. | โ | 2021 | โ |
| Gene-level analysis of rare variants in 379,066 whole exome sequences identifies an association of GIGYF1 loss of function with type 2 diabetes. | Deaton AM et al. | โ | 2021 | โ |
| Genetic ablation of Gpnmb does not alter synuclein-related pathology. | Brendza R et al. | โ | 2021 | โ |
| Genetic Prioritization, Therapeutic Repositioning and Cross-Disease Comparisons Reveal Inflammatory Targets Tractable for Kidney Stone Disease. | Fang H et al. | โ | 2021 | โ |
| Genetics of eating disorders in the genome-wide era. | Watson HJ et al. | โ | 2021 | โ |
| Genetics of Intracranial Aneurysms. | Bakker MK et al. | โ | 2021 | โ |
| Genetic Susceptibility to Pneumonia: A GWAS Meta-Analysis Between the UK Biobank and FinnGen. | Campos AI et al. | โ | 2021 | โ |
| Genome editing to define the function of risk loci and variants in rheumatic disease. | Baglaenko Y et al. | โ | 2021 | โ |
| Human inducible pluripotent stem cells: Realization of initial promise in drug discovery. | Kleiman RJ et al. | โ | 2021 | โ |
| Identification of LZTFL1 as a candidate effector gene at a COVID-19 risk locus. | Downes DJ et al. | โ | 2021 | โ |
| Identification of Novel Genomic-Variant Patterns of OR56A5, OR52L1, and CTSD in Retinitis Pigmentosa Patients by Whole-Exome Sequencing. | Lin TY et al. | โ | 2021 | โ |
| Identifying drug targets for neurological and psychiatric disease via genetics and the brain transcriptome. | Baird DA et al. | โ | 2021 | โ |
| Identifying nootropic drug targets via large-scale cognitive GWAS and transcriptomics. | Lam M et al. | โ | 2021 | โ |
| Identifying Novel Psoriatic Disease Drug Targets Using a Genetics-Based Priority Index Pipeline. | Bui A et al. | โ | 2021 | โ |
| Identifying therapeutic drug targets using bidirectional effect genes. | Estrada K et al. | โ | 2021 | โ |
| Improving Translational Paradigms in Drug Discovery and Development. | Williams M | โ | 2021 | โ |
| Integration of genetically regulated gene expression and pharmacological library provides therapeutic drug candidates. | Konuma T et al. | โ | 2021 | โ |
| Integrative multiomics analysis highlights immune-cell regulatory mechanisms and shared genetic architecture for 14 immune-associated diseases and cancer outcomes. | Prince C et al. | โ | 2021 | โ |
| Mapping the genetic architecture of human traits to cell types in the kidney identifies mechanisms of disease and potential treatments. | Sheng X et al. | โ | 2021 | โ |
| Mendelian randomization for studying the effects of perturbing drug targets. | Gill D et al. | โ | 2021 | โ |
| MendelVar: gene prioritization at GWAS loci using phenotypic enrichment of Mendelian disease genes. | Sobczyk MK et al. | โ | 2021 | โ |
| Meta-analysis uncovers genome-wide significant variants for rapid kidney function decline. | Gorski M et al. | โ | 2021 | โ |
| Multi-tissue transcriptome-wide association study identifies eight candidate genes and tissue-specific gene expression underlying endometrial cancer susceptibility. | Kho PF et al. | โ | 2021 | โ |
| Multitrait GWAS to connect disease variants and biological mechanisms. | Julienne H et al. | โ | 2021 | โ |
| New Associations between Drug-Induced Adverse Events in Animal Models and Humans Reveal Novel Candidate Safety Targets. | Giblin KA et al. | โ | 2021 | โ |
| Open Targets Genetics: systematic identification of trait-associated genes using large-scale genetics and functional genomics. | Ghoussaini M et al. | โ | 2021 | โ |
| Open Targets Platform: supporting systematic drug-target identification and prioritisation. | Ochoa D et al. | โ | 2021 | โ |
| Perspectives on Drug Repurposing. | Schcolnik-Cabrera A et al. | โ | 2021 | โ |
| Polygenic Score Models for Alzheimer's Disease: From Research to Clinical Applications. | Zhou X et al. | โ | 2021 | โ |
| Precision Medicine Approaches to Vascular Disease: JACC Focus Seminar 2/5. | Miller CL et al. | โ | 2021 | โ |
| Project Score database: a resource for investigating cancer cell dependencies and prioritizing therapeutic targets. | Dwane L et al. | โ | 2021 | โ |
| Proteomics and Epidemiological Models of Human Aging. | Ubaida-Mohien C et al. | โ | 2021 | โ |
| Rare variant contribution to human disease in 281,104 UK Biobank exomes. | Wang Q et al. | โ | 2021 | โ |
| Rare versus common diseases: a false dichotomy in precision medicine. | Chung BHY et al. | โ | 2021 | โ |
| Safety and efficacy of itepekimab in patients with moderate-to-severe COPD: a genetic association study and randomised, double-blind, phase 2a trial. | Rabe KF et al. | โ | 2021 | โ |
| Shared genetic architecture across psychiatric disorders. | Grotzinger AD | โ | 2021 | โ |
| Stroke Genetics: Turning Discoveries into Clinical Applications. | Dichgans M et al. | โ | 2021 | โ |
| Synergistic insights into human health from aptamer- and antibody-based proteomic profiling. | Pietzner M et al. | โ | 2021 | โ |
| The Interface of Therapeutics and Genomics in Cardiovascular Medicine. | Magavern EF et al. | โ | 2021 | โ |
| The legacy of the Human Genome Project. | Rood JE et al. | โ | 2021 | โ |
| Therapeutic Inhibition of Acid-Sensing Ion Channel 1a Recovers Heart Function After Ischemia-Reperfusion Injury. | Redd MA et al. | โ | 2021 | โ |
| Translational Analysis of Moderate to Severe Asthma GWAS Signals Into Candidate Causal Genes and Their Functional, Tissue-Dependent and Disease-Related Associations. | Portelli MA et al. | โ | 2021 | โ |
| Unique roles of rare variants in the genetics of complex diseases in humans. | Momozawa Y et al. | โ | 2021 | โ |
| Using Human Genetics to Understand Mechanisms in Ischemic Stroke Outcome: From Early Brain Injury to Long-Term Recovery. | Lee JM et al. | โ | 2021 | โ |
| Using "-omics" Data to Inform Genome-wide Association Studies (GWASs) in the Osteoporosis Field. | Abood A et al. | โ | 2021 | โ |
| Utilizing graph machine learning within drug discovery and development. | Gaudelet T et al. | โ | 2021 | โ |
| What a finding of gene copy number variation can add to the diagnosis of developmental neuropsychiatric disorders. | Vorstman J et al. | โ | 2021 | โ |
| Advances in Genomics for Drug Development. | Spreafico R et al. | โ | 2020 | โ |
| Alzheimer's disease beyond amyloid: Can the repetitive failures of amyloid-targeted therapeutics inform future approaches to dementia drug discovery? | Mullane K et al. | โ | 2020 | โ |
| A missense variant in Mitochondrial Amidoxime Reducing Component 1 gene and protection against liver disease. | Emdin CA et al. | โ | 2020 | โ |
| Characterizing the Causal Pathway for Genetic Variants Associated with Neurological Phenotypes Using Human Brain-Derived Proteome Data. | Kibinge NK et al. | โ | 2020 | โ |
| CRISPR Meets Zebrafish: Accelerating the Discovery of New Therapeutic Targets. | Rubbini D et al. | โ | 2020 | โ |
| Defining the Neural Kinome: Strategies and Opportunities for Small Molecule Drug Discovery to Target Neurodegenerative Diseases. | Krahn AI et al. | โ | 2020 | โ |
| Evaluating drug targets through human loss-of-function genetic variation. | Minikel EV et al. | โ | 2020 | โ |
| Functional genomics, genetic risk profiling and cell phenotypes in neurodegenerative disease. | Finkbeiner S | โ | 2020 | โ |
| Genetic architecture of host proteins involved in SARS-CoV-2 infection. | Pietzner M et al. | โ | 2020 | โ |
| Genetic variation, adipokines, and cardiometabolic disease. | Metz S et al. | โ | 2020 | โ |
| Genomic Medicine: Lessons Learned From Monogenic and Complex Bone Disorders. | Trajanoska K et al. | โ | 2020 | โ |
| Genomics-guided pre-clinical development of cancer therapies. | Francies HE et al. | โ | 2020 | โ |
| Immune dysregulation in depression: Evidence from genome-wide association. | Tubbs JD et al. | โ | 2020 | โ |
| Interpretation of risk loci from genome-wide association studies of Alzheimer's disease. | Andrews SJ et al. | โ | 2020 | โ |
| Mendelian randomisation analysis of red cell distribution width in pulmonary arterial hypertension. | Ulrich A et al. | โ | 2020 | โ |
| Opportunities and Challenges in Functional Genomics Research in Osteoporosis: Report From a Workshop Held by the Causes Working Group of the Osteoporosis and Bone Research Academy of the Royal Osteoporosis Society on October 5th 2020. | Tobias JH et al. | โ | 2020 | โ |
| Polygenic inheritance, GWAS, polygenic risk scores, and the search for functional variants. | Crouch DJM et al. | โ | 2020 | โ |
| Systemic neuro-dysregulation in depression: Evidence from genome-wide association. | Tubbs JD et al. | โ | 2020 | โ |
| The genetics of asthma and the promise of genomics-guided drug target discovery. | El-Husseini ZW et al. | โ | 2020 | โ |
| The support of genetic evidence for cardiovascular risk induced by antineoplastic drugs. | Cui H et al. | โ | 2020 | โ |
| Translating genetic risk of Alzheimer's disease into mechanistic insight and drug targets. | Sierksma A et al. | โ | 2020 | โ |
| Turning genome-wide association study findings into opportunities for drug repositioning. | Lau A et al. | โ | 2020 | โ |
| WNT Signaling and Bone: Lessons From Skeletal Dysplasias and Disorders. | Huybrechts Y et al. | โ | 2020 | โ |
| Editorial: Establishing Genetic Pleiotropy to Identify Common Pharmacological Agents for Common Diseases. | O'Mara TA et al. | โ | 2019 | โ |
| Genetic Support for Longevity-Enhancing Drug Targets: Issues, Preliminary Data, and Future Directions. | McCorrison J et al. | โ | 2019 | โ |
| Tissue-specific genes as an underutilized resource in drug discovery. | Ryaboshapkina M et al. | โ | 2019 | โ |