Loss-of-Function
            <i>ABCC8</i>
            Mutations in Pulmonary Arterial Hypertension

Bohnen, Michael S.; Ma, Lijiang; Zhu, Na; Qi, Hongjian; McClenaghan, Conor; Gonzaga‐Jauregui, Claudia; Dewey, Frederick E.; Overton, John D.; Reid, Jeffrey G.; Shuldiner, Alan R.; Baras, Aris; Sampson, Kevin J.; Bleda, Marta; Hadinnapola, Charaka; Haimel, Matthias; Bogaard, Harm Jan; Church, Colin; Coghlan, Gerry; Corris, Paul A.; Eyries, Mélanie; Gibbs, J. Simon R.; Girerd, Barbara; Houweling, Arjan C.; Humbert, Marc; Guignabert, Christophe; Kiely, David G.; Lawrie, Allan; Ross, Rob V. Mackenzie; Martin, Jennifer; Montani, David; Peacock, Andrew J.; Pepke‐Zaba, Joanna; Soubrier, Florent; Suntharalingam, Jay; Toshner, Mark; Treacy, Carmen; Trembath, Richard; Vonk‐Noordegraaf, Anton; Wharton, John; Wilkins, Martin R.; Wort, Stephen J.; Yates, Katherine; Gräf, Stefan; Morrell, Nicholas W.; Krishnan, Usha; Rosenzweig, Erika B.; Shen, Yufeng; Nichols, Colin G.; Kass, Robert S.; Chung, Wendy K.

doi:10.1161/circgen.118.002087

Cited by 63 publications

(109 citation statements)

References 33 publications

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“…Screening of ABCC8 mutations in an extended cohort identified likely deleterious, heterozygous, missense mutations distributed across the length of the gene in paediatric patients with IPAH, familial PAH or congenital heart diseaseassociated PAH. Expression of the identified ABCC8 variants in a fibroblast-like cell line decreased the function of the ATP-sensitive potassium channel, further indicating that a subset of PAH might be mechanistically described as a potassium channelopathy 97 . Of interest, treatment of these cells with the pharmacological agent diazoxide, a selective ABCC8 activator, resulted in the recovery of channel function to normal levels 97 .…”

Section: [H1] Genetics Of Childhood-onset Pahmentioning

confidence: 97%

“…A follow-up report in a cohort of patients with childhood-onset (n = 99) and adult-onset (n = 134) PAH who were negative for BMPR2 or ACVRL1 mutations, identified a de novo missense variant in ABCC8 (encoding the ATP binding cassette subfamily C member 8 (ABCC8); also known as sulfonylurea receptor 1) in a patient with childhood-onset IPAH 97 .…”

Section: [H1] Genetics Of Childhood-onset Pahmentioning

confidence: 99%

“…The mutation (c.2873G>A; p.R958H) was predicted to be deleterious, occurring at a highly conserved site within a critical domain of the encoded protein, which is a regulatory subunit of the ATP-sensitive potassium channel 97 . Screening of ABCC8 mutations in an extended cohort identified likely deleterious, heterozygous, missense mutations distributed across the length of the gene in paediatric patients with IPAH, familial PAH or congenital heart diseaseassociated PAH.…”

Section: [H1] Genetics Of Childhood-onset Pahmentioning

confidence: 99%

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Molecular genetic framework underlying pulmonary arterial hypertension

et al. 2019

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| Pulmonary arterial hypertension (PAH) is a rare, progressive disorder typified by occlusion of the pulmonary arterioles owing to endothelial dysfunction and uncontrolled proliferation of pulmonary artery smooth muscle cells and fibroblasts. Vascular occlusion can lead to increased pressure in the pulmonary arteries, often resulting in right ventricular failure with shortness of breath and syncope. Since the identification of BMPR2, which encodes a receptor in the transforming growth factor-β superfamily, the development of highthroughput sequencing approaches to identify novel causal genes has substantially advanced our understanding of the molecular genetics of PAH. In the past 6 years, additional pathways involved in PAH susceptibility have been described through the identification of deleterious genetic variants in potassium channels (KCNK3 and ABCC8) and transcription factors (TBX4 and SOX17), among others. Although familial PAH most often has an autosomal dominant pattern of inheritance, cases of incomplete penetrance and evidence of genetic heterogeneity support a model of PAH as a Mendelian disorder with complex disease features. In this Review, we outline the latest advances in the detection of rare and common genetic variants underlying PAH susceptibility and disease progression. These findings have clinical implications on lung vascular function and can help to identify mechanistic pathways amenable to pharmacological intervention. P ag e | 2

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Section: [H1] Genetics Of Childhood-onset Pahmentioning

confidence: 97%

Section: [H1] Genetics Of Childhood-onset Pahmentioning

confidence: 99%

Section: [H1] Genetics Of Childhood-onset Pahmentioning

confidence: 99%

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Molecular genetic framework underlying pulmonary arterial hypertension

et al. 2019

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“…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%

“…Germline mutations in other genes are individually rare causes of PAH. These include other genes in the TGF-β/BMP signaling pathway 15 , hereditary hemorrhagic telangiectasia (HHT) genes activin A receptor type II-like 1 (ACVRL1) and endoglin (ENG) 7 , eukaryotic initiation translation factor (EIF2AK4) associated with pulmonary veno-occlusive disease (PVOD)/pulmonary capillary hemangiomatosis (PCH) 16,17 , caveolin-1 (CAV1) 18 , and channel genes including potassium two pore domain channel (KCNK3) 19 , ATP-binding cassette subfamily member 8 (ABCC8) 20 and voltage-dependent potassium channel 1.5 (KCNA5) 21 .…”

Section: Introductionmentioning

confidence: 99%

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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Primary Pulmonary Arterial Hypertension Versus Secondary Pulmonary Hypertension

Mantilla

2022

Practical Lung Pathology

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Loss-of-Function ABCC8 Mutations in Pulmonary Arterial Hypertension

Cited by 63 publications

References 33 publications

Molecular genetic framework underlying pulmonary arterial hypertension

Molecular genetic framework underlying pulmonary arterial hypertension

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

Primary Pulmonary Arterial Hypertension Versus Secondary Pulmonary Hypertension

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