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Literature DB >> 28942967

De Novo Mutations in PPP3CA Cause Severe Neurodevelopmental Disease with Seizures.

Candace T Myers¹, Nicholas Stong², Emily I Mountier³, Katherine L Helbig⁴, Saskia Freytag⁵, Joseph E Sullivan⁶, Bruria Ben Zeev⁷, Andreea Nissenkorn⁷, Michal Tzadok⁷, Gali Heimer⁷, Deepali N Shinde⁴, Arezoo Rezazadeh⁸, Brigid M Regan⁸, Karen L Oliver⁹, Michelle E Ernst², Natalie C Lippa², Maureen S Mulhern², Zhong Ren², Annapurna Poduri¹⁰, Danielle M Andrade⁸, Lynne M Bird¹¹, Melanie Bahlo⁵, Samuel F Berkovic¹², Daniel H Lowenstein¹³, Ingrid E Scheffer¹⁴, Lynette G Sadleir³, David B Goldstein², Heather C Mefford¹⁵, Erin L Heinzen¹⁶.

Abstract

Exome sequencing has readily enabled the discovery of the genetic mutations responsible for a wide range of diseases. This success has been particularly remarkable in the severe epilepsies and other neurodevelopmental diseases for which rare, often de novo, mutations play a significant role in disease risk. Despite significant progress, the high genetic heterogeneity of these disorders often requires large sample sizes to identify a critical mass of individuals with disease-causing mutations in a single gene. By pooling genetic findings across multiple studies, we have identified six individuals with severe developmental delay (6/6), refractory seizures (5/6), and similar dysmorphic features (3/6), each harboring a de novo mutation in PPP3CA. PPP3CA encodes the alpha isoform of a subunit of calcineurin. Calcineurin encodes a calcium- and calmodulin-dependent serine/threonine protein phosphatase that plays a role in a wide range of biological processes, including being a key regulator of synaptic vesicle recycling at nerve terminals. Five individuals with de novo PPP3CA mutations were identified among 4,760 trio probands with neurodevelopmental diseases; this is highly unlikely to occur by chance (p = 1.2 × 10-8) given the size and mutability of the gene. Additionally, a sixth individual with a de novo mutation in PPP3CA was connected to this study through GeneMatcher. Based on these findings, we securely implicate PPP3CA in early-onset refractory epilepsy and further support the emerging role for synaptic dysregulation in epilepsy.

Entities: Chemical Disease Gene Mutation

Keywords: PPP3CA; calcineurin; de novo mutation; developmental and epileptic encephalopathy; epilepsy

Mesh：

Substances：

Year: 2017 PMID： 28942967 PMCID： PMC5630160 DOI： 10.1016/j.ajhg.2017.08.013

Source DB: PubMed Journal: Am J Hum Genet ISSN： 0002-9297 Impact factor: 11.025

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