Monocarboxylate Transporter 1 Deficiency and Ketone Utilization

Peter M. van Hasselt(Radboud University Nijmegen), Sacha Ferdinandusse(Amsterdam UMC Location University of Amsterdam), Glen R. Monroe(Laboratory of Molecular Genetics), Jos P.N. Ruiter(Amsterdam UMC Location University of Amsterdam), Marjolein Turkenburg(Amsterdam UMC Location University of Amsterdam), Maartje J. Geerlings(Laboratory of Molecular Genetics), Karen Duran(Laboratory of Molecular Genetics), Magdaléna Harakaľová(Laboratory of Molecular Genetics), Bert van der Zwaag(Laboratory of Molecular Genetics), Ardeshir A. Monavari(Temple Street Children's University Hospital), İlyas Okur(Gazi University), Mark Sharrard(Sheffield Children's Hospital), Maureen Cleary(Great Ormond Street Hospital for Children NHS Foundation Trust), N.H. O’Connell(Salisbury University), Valerie Walker(Southampton General Hospital), M. Estela Rubio‐Gozalbo(University Medical Center), Maaike C. de Vries(Radboud University Nijmegen), Gepke Visser, Roderick H.J. Houwen(Wilhelmina Children's Hospital), Jasper J. van der Smagt(Laboratory of Molecular Genetics), Nanda M. Verhoeven‐Duif(Laboratory of Molecular Genetics), Ronald J. A. Wanders(Amsterdam UMC Location University of Amsterdam), Gijs van Haaften(Laboratory of Molecular Genetics)
New England Journal of Medicine
November 12, 2014
10.1056/nejmoa1407778
Cited by 120Open Access
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Abstract

Ketoacidosis is a potentially lethal condition caused by the imbalance between hepatic production and extrahepatic utilization of ketone bodies. We performed exome sequencing in a patient with recurrent, severe ketoacidosis and identified a homozygous frameshift mutation in the gene encoding monocarboxylate transporter 1 (SLC16A1, also called MCT1). Genetic analysis in 96 patients suspected of having ketolytic defects yielded seven additional inactivating mutations in MCT1, both homozygous and heterozygous. Mutational status was found to be correlated with ketoacidosis severity, MCT1 protein levels, and transport capacity. Thus, MCT1 deficiency is a novel cause of profound ketoacidosis; the present work suggests that MCT1-mediated ketone-body transport is needed to maintain acid-base balance.

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