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Please use this identifier to cite or link to this item: https://ahro.austin.org.au/austinjspui/handle/1/34727
Title: The effects of pathogenic and likely pathogenic variants for inherited hemostasis disorders in 140 214 UK Biobank participants.
Austin Authors: Stefanucci, Luca;Collins, Janine;Sims, Matthew C;Barrio-Hernandez, Inigo;Sun, Luanluan;Burren, Oliver S;Perfetto, Livia;Bender, Isobel;Callahan, Tiffany J;Fleming, Kathryn;Guerrero, Jose A;Hermjakob, Henning;Martin, Maria J;Stephenson, James;Paneerselvam, Kalpana;Petrovski, Slavé;Porras, Pablo;Robinson, Peter N;Wang, Quanli;Watkins, Xavier;Frontini, Mattia;Laskowski, Roman A;Beltrao, Pedro;Di Angelantonio, Emanuele;Gomez, Keith;Laffan, Mike;Ouwehand, Willem H;Mumford, Andrew D;Freson, Kathleen;Carss, Keren;Downes, Kate;Gleadall, Nick;Megy, Karyn;Bruford, Elspeth;Vuckovic, Dragana
Affiliation: Department of Haematology, University of Cambridge, Cambridge Biomedical Campus, Cambridge, United Kingdom.;National Health Service Blood and Transplant, Cambridge Biomedical Campus, Cambridge, United Kingdom.;British Heart Foundation, BHF Centre of Research Excellence, University of Cambridge, Cambridge Biomedical Campus, Cambridge, United Kingdom.
Department of Haematology, University of Cambridge, Cambridge Biomedical Campus, Cambridge, United Kingdom.;National Health Service Blood and Transplant, Cambridge Biomedical Campus, Cambridge, United Kingdom.;Department of Haematology, Barts Health NHS Trust, London, United Kingdom.
European Molecular Biology Laboratory, European Bioinformatics Institute, Wellcome Genome Campus, Cambridge, United Kingdom.
Department of Public Health and Primary Care, BHF Cardiovascular Epidemiology Unit, University of Cambridge, Cambridge, United Kingdom.
Centre for Genomics Research, Discovery Sciences, BioPharmaceuticals R&D, AstraZeneca, Cambridge, United Kingdom.
Department of Biochemistry, University of Oxford, Oxford, United Kingdom.
Department of Biomedical Informatics, Columbia University Irving Medical Center, New York, NY.
School of Cellular and Molecular Medicine, University of Bristol, Bristol, United Kingdom.
National Health Service Blood and Transplant, Cambridge Biomedical Campus, Cambridge, United Kingdom.;Department of Haematology, Barts Health NHS Trust, London, United Kingdom.
Centre for Genomics Research, Discovery Sciences, AstraZeneca, Cambridge, United Kingdom.
Medicine (University of Melbourne)
Genomic Medicine, The Jackson Laboratory, Farmington, CT.;Institute for Systems Genomics, University of Connecticut, Farmington, CT.
Centre for Genomics Research, Discovery Sciences, BioPharmaceuticals R&D, AstraZeneca, Cambridge, United Kingdom.
Department of Haematology, University of Cambridge, Cambridge Biomedical Campus, Cambridge, United Kingdom.;National Health Service Blood and Transplant, Cambridge Biomedical Campus, Cambridge, United Kingdom.;British Heart Foundation, BHF Centre of Research Excellence, University of Cambridge, Cambridge Biomedical Campus, Cambridge, United Kingdom.;Department of Clinical and Biomedical Sciences, Faculty of Health and Life Sciences RILD Building, University of Exeter Medical School, Exeter, United Kingdom.
European Molecular Biology Laboratory, European Bioinformatics Institute, Wellcome Genome Campus, Cambridge, United Kingdom.
Institute of Molecular Systems Biology, ETH Zürich, Zürich, Switzerland.
British Heart Foundation, BHF Centre of Research Excellence, University of Cambridge, Cambridge Biomedical Campus, Cambridge, United Kingdom.;Department of Public Health and Primary Care, BHF Cardiovascular Epidemiology Unit, University of Cambridge, Cambridge, United Kingdom.;Heart and Lung Research Institute, University of Cambridge, Cambridge, United Kingdom.;NIHR Blood and Transplant Research Unit in Donor Health and Behaviour, Cambridge, United Kingdom.;Health Data Research UK Cambridge, Wellcome Genome Campus and University of Cambridge, Cambridge, United Kingdom.;Health Data Science Centre, Human Technopole, Milan, Italy.
Haemophilia Centre and Thrombosis Unit, Royal Free London NHS Foundation Trust, London, United Kingdom.
Department of Haematology, Imperial College Healthcare NHS Trust, London, United Kingdom.;Department of Immunology and Inflammation, Centre for Haematology, Imperial College London, London, United Kingdom.
Department of Haematology, University of Cambridge, Cambridge Biomedical Campus, Cambridge, United Kingdom.;National Health Service Blood and Transplant, Cambridge Biomedical Campus, Cambridge, United Kingdom.;Department of Haematology, University College London Hospitals NHS Trust, London, United Kingdom.
School of Cellular and Molecular Medicine, University of Bristol, Bristol, United Kingdom.
Department of Cardiovascular Sciences, Center for Molecular and Vascular Biology, KULeuven, Leuven, Belgium.
Centre for Genomics Research, Discovery Sciences, BioPharmaceuticals R&D, AstraZeneca, Cambridge, United Kingdom.
Department of Epidemiology and Biostatistics, Imperial College London, London, United Kingdom.
Issue Date: 14-Dec-2023
Publication information: Blood 2023-12-14; 142(24)
Abstract: Rare genetic diseases affect millions, and identifying causal DNA variants is essential for patient care. Therefore, it is imperative to estimate the effect of each independent variant and improve their pathogenicity classification. Our study of 140 214 unrelated UK Biobank (UKB) participants found that each of them carries a median of 7 variants previously reported as pathogenic or likely pathogenic. We focused on 967 diagnostic-grade gene (DGG) variants for rare bleeding, thrombotic, and platelet disorders (BTPDs) observed in 12 367 UKB participants. By association analysis, for a subset of these variants, we estimated effect sizes for platelet count and volume, and odds ratios for bleeding and thrombosis. Variants causal of some autosomal recessive platelet disorders revealed phenotypic consequences in carriers. Loss-of-function variants in MPL, which cause chronic amegakaryocytic thrombocytopenia if biallelic, were unexpectedly associated with increased platelet counts in carriers. We also demonstrated that common variants identified by genome-wide association studies (GWAS) for platelet count or thrombosis risk may influence the penetrance of rare variants in BTPD DGGs on their associated hemostasis disorders. Network-propagation analysis applied to an interactome of 18 410 nodes and 571 917 edges showed that GWAS variants with large effect sizes are enriched in DGGs and their first-order interactors. Finally, we illustrate the modifying effect of polygenic scores for platelet count and thrombosis risk on disease severity in participants carrying rare variants in TUBB1 or PROC and PROS1, respectively. Our findings demonstrate the power of association analyses using large population datasets in improving pathogenicity classifications of rare variants.
URI: https://ahro.austin.org.au/austinjspui/handle/1/34727
DOI: 10.1182/blood.2023020118
ORCID: 0000-0002-4352-1151
0000-0002-8716-3261
0000-0003-4503-0265
0000-0002-5686-0451
0000-0002-3388-5760
0000-0003-4392-8725
0000-0002-5309-3752
0000-0002-8169-9049
0000-0003-4307-6948
0000-0001-8479-0262
0000-0001-5454-2815
0000-0002-6427-5703
0000-0003-2534-198X
0000-0002-1527-961X
0000-0002-8429-8793
0000-0002-0736-9199
0000-0001-8074-6299
0000-0001-5528-0087
0000-0002-2724-7703
0000-0002-8934-0700
0000-0002-8268-3268
0000-0002-7744-1790
0000-0002-5523-511X
0000-0003-4939-156X
0000-0002-1132-1059
0000-0002-8380-5247
0000-0001-9343-6142
Journal: Blood
Start page: 2055
End page: 2068
PubMed URL: 37647632
ISSN: 1528-0020
Type: Journal Article
Subjects: Hemorrhage/genetics
Appears in Collections:Journal articles

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