Rare variants in SOX17 are associated with pulmonary arterial hypertension with congenital heart disease

Zhu, Na; Welch, Carrie L.; Wang, Jiayao; Allen, Philip M.; Gonzaga‐Jauregui, Claudia; Ma, Lijiang; King, Alejandra; Krishnan, Usha; Rosenzweig, Erika B.; Ivy, D. Dunbar; Austin, Eric D.; Hamid, Rizwan; Pauciulo, Michael W.; Lutz, Katie A.; Nichols, William C.; Reid, Jeffrey G.; Overton, John D.; Baras, Aris; Dewey, Frederick E.; Shen, Yufeng; Chung, Wendy K.

doi:10.1186/s13073-018-0566-x

Cited by 125 publications

(158 citation statements)

References 78 publications

(84 reference statements)

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“…GDF2 encodes a well-characterized ligand for BMPR2, and these data further confirm an important role for GDF2 in IPAH, as well as other PAH subclasses. Similar to the UK cohort, as well as our previous report of a cohort enriched in APAH-CHD cases 22 , we observed a low frequency of SOX17 variants (0.4%) in the PAH Biobank likely due, at least in part, to the paucity of APAH-CHD cases in both Biobank cohorts. Interestingly, a genome-wide association study of common SNPs involving both the PAH Biobank and the UK NIHR BioResource -Rare Diseases PAH Study identified SNPs in a putative endothelial-acting enhancer region of SOX17 in PAH 39 , suggesting that common variants may play an important role in susceptibility to PAH.…”

Section: Discussionsupporting

confidence: 89%

“…The data and resources are made available to the research community for hypothesis-driven projects via an application process (www.pahbiobank.org). A subset including 183 affected participants were included in previous publications from our group 14,20,22 . MLPA was performed with 100 ng of genomic DNA according to manufacturer's instructions using the P093 Salsa MLPA probe sets (MRC-Holland, Amsterdam, The Netherlands).…”

Section: Participantsmentioning

confidence: 99%

“…Rare mutations in SRY-related HMG-box transcription factor (SOX17), a key regulator of embryonic vasculogenesis, explain ~3.2% of APAH-CHD 22 , and 0.7% of IPAH 22,23 . The UK NIHR BioResource -Rare Diseases PAH Study, utilizing ~1000 PAH cases of primarily adultonset IPAH, identified an ATPase gene (ATP13A3), growth differentiation factor 2 (GDF2; also known as BMP9) and SOX17 as risk genes contributing to 0.8-1.1% of cases 23 .…”

Section: Introductionmentioning

confidence: 99%

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Novel risk genes and mechanisms implicated by exome sequencing of 2,572 individuals with pulmonary arterial hypertension

Zhu

Pauciulo

Welch

et al. 2019

Preprint

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Group 1 pulmonary arterial hypertension (PAH) is a rare disease with high mortality despite recent therapeutic advances. Pathogenic remodeling of pulmonary arterioles leads to increased pulmonary pressures, right ventricular hypertrophy and heart failure. Mutations in bone morphogenetic protein receptor type 2 and other risk genes predispose to disease, but the vast majority of non-familial cases remain genetically undefined. To identify new risk genes, we performed exome sequencing in a large cohort from the National Biological Sample and Data Repository for PAH. By statistical association of rare deleterious variants, we found tissue kallikrein 1 and gamma glutamyl carboxylase as new candidate risk genes for idiopathic PAH associated with a later age-of-onset and relatively moderate disease phenotype compared to bone morphogenetic receptor type 2. Both genes play important roles in vascular hemodynamics and inflammation but have not been implicated in PAH previously. These data suggest new genes, pathogenic mechanisms and therapeutic targets for this lethal vasculopathy.Word count: 154

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Section: Discussionsupporting

confidence: 89%

Section: Participantsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Novel risk genes and mechanisms implicated by exome sequencing of 2,572 individuals with pulmonary arterial hypertension

Zhu

Pauciulo

Welch

et al. 2019

Preprint

Self Cite

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“…Recent work has identified SOX17 as a contributor to CHD associated with pulmonary hypertension as well as isolated and familial pulmonary hypertension (Zhu et al, 2018). SOX17 is a transcriptional target of GATA4, and it inhibits signaling in the WNT/B-catenin pathway involved in cardiac development (Holtzinger, Rosenfeld, & Evans, 2010;Zorn et al, 1999).…”

Section: Transcription Factorsmentioning

confidence: 99%

The genetics of isolated congenital heart disease

Nees

Chung

2019

American J of Med Genetics Pt C

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The genetic mechanisms underlying congenital heart disease (CHD) are complex and remain incompletely understood. The majority of patients with CHD have an isolated heart defect without other organ system involvement, but the genetic basis of isolated CHD has been even more difficult to elucidate compared to syndromic CHD. Our understanding of the genetics of isolated CHD is advancing in large part due to advances in next generation sequencing, and the list of genes associated with CHD is rapidly expanding. Variants in hundreds of genes have been identified that may cause or contribute to CHD, but a genetic cause can still only be identified in about 20–30% of patients. Identifying a genetic cause for CHD can have an impact on clinical outcomes and prognosis and thus it is important for clinicians to understand when and what to test in patients with isolated CHD. This chapter reviews some of the known genetic mechanisms that contribute to isolated inherited and sporadic CHD as well as recommendations for evaluation and genetic testing in patients with isolated CHD.

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“…Nevertheless, the presence of a mutation in the context of PAH-CHD could predispose for or accelerate progressive, thus irreversible disease. Mutations in BMPR2,48 49 and recently in the transcription factor Sox17,50 have been associated with PAH in CHD specifically. Whether this provides sufficient rationale to screen for these variants in the assessment of PAH reversibility remains to be determined.…”

Section: Structural Functional and Molecular Assessment Of The Pulmomentioning

confidence: 99%

Assessment of reversibility in pulmonary arterial hypertension and congenital heart disease

Feen

Bartelds

Boer³

et al. 2018

Heart

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Pulmonary arterial hypertension (PAH) in congenital heart disease (CHD) can be reversed by early shunt closure, but this potential is lost beyond a certain point of no return. Therefore, it is crucial to accurately assess the reversibility of this progressive pulmonary arteriopathy in an early stage. Reversibility assessment is currently based on a combination of clinical symptoms and haemodynamic variables such as pulmonary vascular resistance. These measures, however, are of limited predictive value and leave many patients in the grey zone. This review provides a concise overview of the mechanisms involved in flow-dependent progression of PAH in CHD and evaluates existing and future alternatives to more directly investigate the stage of the pulmonary arteriopathy. Structural quantification of the pulmonary arterial tree using fractal branching algorithms, functional imaging with intravascular ultrasound, nuclear imaging, putative new blood biomarkers, genetic testing and the potential for transcriptomic analysis of circulating endothelial cells and educated platelets are being reviewed.

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Rare variants in SOX17 are associated with pulmonary arterial hypertension with congenital heart disease

Cited by 125 publications

References 78 publications

Novel risk genes and mechanisms implicated by exome sequencing of 2,572 individuals with pulmonary arterial hypertension

Novel risk genes and mechanisms implicated by exome sequencing of 2,572 individuals with pulmonary arterial hypertension

The genetics of isolated congenital heart disease

Assessment of reversibility in pulmonary arterial hypertension and congenital heart disease

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