Literature DB >> 33320693

Bayesian Inference Associates Rare KDR Variants with Specific Phenotypes in Pulmonary Arterial Hypertension.

Emilia M Swietlik1, Daniel Greene2, Na Zhu3, Karyn Megy2, Marcella Cogliano4, Smitha Rajaram5, Divya Pandya1, Tobias Tilly1, Katie A Lutz6, Carrie C L Welch7, Michael W Pauciulo8, Laura Southgate9, Jennifer M Martin10, Carmen M Treacy1, Christopher J Penkett2, Jonathan C Stephens2, Harm J Bogaard11, Colin Church12, Gerry Coghlan13, Anna W Coleman6, Robin Condliffe14, Christina A Eichstaedt15, Mélanie Eyries16, Henning Gall17, Stefano Ghio18, Barbara Girerd19, Ekkehard Grünig20, Simon Holden21, Luke Howard22, Marc Humbert19, David G Kiely14, Gabor Kovacs23, Jim Lordan24, Rajiv D Machado9, Robert V Mackenzie Ross25, Colm McCabe26, Shahin Moledina27, David Montani19, Horst Olschewski23, Joanna Pepke-Zaba28, Laura Price26, Christopher J Rhodes22, Werner Seeger17, Florent Soubrier16, Jay Suntharalingam25, Mark R Toshner29, Anton Vonk Noordegraaf11, John Wharton22, James M Wild4, Stephen John Wort26, Allan Lawrie4, Martin R Wilkins22, Richard C Trembath30, Yufeng Shen31, Wendy K Chung32, Andrew J Swift4, William C Nichols8, Nicholas W Morrell33, Stefan Gräf34.   

Abstract

Background - Approximately 25% of patients with pulmonary arterial hypertension (PAH) have been found to harbor rare mutations in disease-causing genes. To identify missing heritability in PAH we integrated deep phenotyping with whole-genome sequencing data using Bayesian statistics. Methods - We analyzed 13,037 participants enrolled in the NIHR BioResource - Rare Diseases (NBR) study, of which 1,148 were recruited to the PAH domain. To test for genetic associations between genes and selected phenotypes of pulmonary hypertension (PH), we used the Bayesian rare-variant association method BeviMed. Results - Heterozygous, high impact, likely loss-of-function variants in the Kinase Insert Domain Receptor (KDR) gene were strongly associated with significantly reduced transfer coefficient for carbon monoxide (KCO, posterior probability (PP)=0.989) and older age at diagnosis (PP=0.912). We also provide evidence for familial segregation of a rare nonsense KDR variant with these phenotypes. On computed tomographic imaging of the lungs, a range of parenchymal abnormalities were observed in the five patients harboring these predicted deleterious variants in KDR. Four additional PAH cases with rare likely loss-of-function variants in KDR were independently identified in the US PAH Biobank cohort with similar phenotypic characteristics. Conclusions - The Bayesian inference approach allowed us to independently validate KDR, which encodes for the Vascular Endothelial Growth Factor Receptor 2 (VEGFR2), as a novel PAH candidate gene. Furthermore, this approach specifically associated high impact likely loss-of-function variants in the genetically constrained gene with distinct phenotypes. These findings provide evidence for KDR being a clinically actionable PAH gene and further support the central role of the vascular endothelium in the pathobiology of PAH.

Entities:  

Keywords:  computed tomography

Year:  2020        PMID: 33320693      PMCID: PMC7892262          DOI: 10.1161/CIRCGEN.120.003155

Source DB:  PubMed          Journal:  Circ Genom Precis Med        ISSN: 2574-8300


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