Literature DB >> 31422819

Bi-allelic GOT2 Mutations Cause a Treatable Malate-Aspartate Shuttle-Related Encephalopathy.

Clara D M van Karnebeek1, Rúben J Ramos2, Xiao-Yan Wen3, Maja Tarailo-Graovac4, Joseph G Gleeson5, Cristina Skrypnyk6, Koroboshka Brand-Arzamendi7, Farhad Karbassi7, Mahmoud Y Issa8, Robin van der Lee9, Britt I Drögemöller10, Janet Koster11, Justine Rousseau12, Philippe M Campeau12, Youdong Wang7, Feng Cao13, Meng Li7, Jos Ruiter11, Jolita Ciapaite2, Leo A J Kluijtmans14, Michel A A P Willemsen15, Judith J Jans2, Colin J Ross16, Liesbeth T Wintjes17, Richard J Rodenburg18, Marleen C D G Huigen14, Zhengping Jia13, Hans R Waterham19, Wyeth W Wasserman9, Ronald J A Wanders19, Nanda M Verhoeven-Duif2, Maha S Zaki8, Ron A Wevers20.   

Abstract

Early-infantile encephalopathies with epilepsy are devastating conditions mandating an accurate diagnosis to guide proper management. Whole-exome sequencing was used to investigate the disease etiology in four children from independent families with intellectual disability and epilepsy, revealing bi-allelic GOT2 mutations. In-depth metabolic studies in individual 1 showed low plasma serine, hypercitrullinemia, hyperlactatemia, and hyperammonemia. The epilepsy was serine and pyridoxine responsive. Functional consequences of observed mutations were tested by measuring enzyme activity and by cell and animal models. Zebrafish and mouse models were used to validate brain developmental and functional defects and to test therapeutic strategies. GOT2 encodes the mitochondrial glutamate oxaloacetate transaminase. GOT2 enzyme activity was deficient in fibroblasts with bi-allelic mutations. GOT2, a member of the malate-aspartate shuttle, plays an essential role in the intracellular NAD(H) redox balance. De novo serine biosynthesis was impaired in fibroblasts with GOT2 mutations and GOT2-knockout HEK293 cells. Correcting the highly oxidized cytosolic NAD-redox state by pyruvate supplementation restored serine biosynthesis in GOT2-deficient cells. Knockdown of got2a in zebrafish resulted in a brain developmental defect associated with seizure-like electroencephalography spikes, which could be rescued by supplying pyridoxine in embryo water. Both pyridoxine and serine synergistically rescued embryonic developmental defects in zebrafish got2a morphants. The two treated individuals reacted favorably to their treatment. Our data provide a mechanistic basis for the biochemical abnormalities in GOT2 deficiency that may also hold for other MAS defects. Crown
Copyright © 2019. Published by Elsevier Inc. All rights reserved.

Entities:  

Keywords:  EC 2.6.1.1.; GOT2; aspartate aminotransferase; encephalopathy; inborn error of metabolism; malate-aspartate shuttle; mitochondriopathy; pyridoxine responsive epilepsy; redox imbalance; treatment

Mesh:

Substances:

Year:  2019        PMID: 31422819      PMCID: PMC6732527          DOI: 10.1016/j.ajhg.2019.07.015

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


  37 in total

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