Genetic defects in mtDNA-encoded protein translation cause pediatric, mitochondrial cardiomyopathy with early-onset brain disease.

Szczegóły
Abstrakt

Tytuł:: Genetic defects in mtDNA-encoded protein translation cause pediatric, mitochondrial cardiomyopathy with early-onset brain disease.
Autorzy:: Kamps R; Department of Genetics and Cell Biology, Maastricht University, Maastricht, The Netherlands.; School for Cardiovascular Diseases, Maastricht University, Maastricht, The Netherlands.
Szklarczyk R; Department of Genetics and Cell Biology, Maastricht University, Maastricht, The Netherlands.
Theunissen TE; Department of Genetics and Cell Biology, Maastricht University, Maastricht, The Netherlands.
Hellebrekers DMEI; Department of Clinical Genetics, MUMC, Maastricht, The Netherlands.
Sallevelt SCEH; Department of Clinical Genetics, MUMC, Maastricht, The Netherlands.
Boesten IB; Department of Clinical Genetics, MUMC, Maastricht, The Netherlands.
de Koning B; Department of Clinical Genetics, MUMC, Maastricht, The Netherlands.
van den Bosch BJ; Department of Clinical Genetics, MUMC, Maastricht, The Netherlands.
Salomons GS; Department of Clinical Chemistry, VU University Medical Center/Neuroscience Campus Amsterdam, Amsterdam, The Netherlands.
Simas-Mendes M; Department of Clinical Chemistry, VU University Medical Center/Neuroscience Campus Amsterdam, Amsterdam, The Netherlands.
Verdijk R; Department of Pathology, Erasmus Medical Centre, Rotterdam, The Netherlands.
Schoonderwoerd K; Department of Clinical Genetics, Erasmus Medical Centre, Rotterdam, The Netherlands.
de Coo IFM; Department of Neurology, Erasmus Medical Centre, Rotterdam, The Netherlands.
Vanoevelen JM; Department of Genetics and Cell Biology, Maastricht University, Maastricht, The Netherlands.; Department of Clinical Genetics, MUMC, Maastricht, The Netherlands.
Smeets HJM; Department of Genetics and Cell Biology, Maastricht University, Maastricht, The Netherlands. .; School for Cardiovascular Diseases, Maastricht University, Maastricht, The Netherlands. .
Źródło:: European journal of human genetics : EJHG [Eur J Hum Genet] 2018 Apr; Vol. 26 (4), pp. 537-551. Date of Electronic Publication: 2018 Feb 13.
Typ publikacji:: Case Reports; Journal Article; Research Support, Non-U.S. Gov't
Język:: English
Imprint Name(s):: Publication: <2003->: London : Nature Publishing Group
Original Publication: Basel ; New York : Karger, [1992-
MeSH Terms:: Mutation*
Cardiomyopathies/*genetics
DNA, Mitochondrial/*genetics
Developmental Disabilities/*genetics
Mitochondrial Diseases/*genetics
Alanine-tRNA Ligase/genetics ; Cardiomyopathies/diagnosis ; Carrier Proteins/genetics ; Developmental Disabilities/diagnosis ; Female ; Fetus ; Humans ; Infant ; Male ; Mitochondrial Diseases/diagnosis ; Nitrogenous Group Transferases/genetics ; Oxidative Phosphorylation ; Pedigree ; RNA-Binding Proteins ; Syndrome
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Substance Nomenclature:: 0 (Carrier Proteins)
0 (DNA, Mitochondrial)
0 (MTO1 protein, human)
0 (RNA-Binding Proteins)
EC 2.6.- (Nitrogenous Group Transferases)
EC 2.6.- (glutamyl-tRNA(Gln) amidotransferase)
EC 6.1.1.7 (Alanine-tRNA Ligase)
Entry Date(s):: Date Created: 20180215 Date Completed: 20181226 Latest Revision: 20231112
Update Code:: 20240105
PubMed Central ID:: PMC5891491
DOI:: 10.1038/s41431-017-0058-2
PMID:: 29440775
: Czasopismo naukowe

This study aims to identify gene defects in pediatric cardiomyopathy and early-onset brain disease with oxidative phosphorylation (OXPHOS) deficiencies. We applied whole-exome sequencing in three patients with pediatric cardiomyopathy and early-onset brain disease with OXPHOS deficiencies. The brain pathology was studied by MRI analysis. In consanguineous patient 1, we identified a homozygous intronic variant (c.850-3A > G) in the QRSL1 gene, which was predicted to cause abnormal splicing. The variant segregated with the disease and affected the protein function, which was confirmed by complementation studies, restoring OXPHOS function only with wild-type QRSL1. Patient 2 was compound heterozygous for two novel affected and disease-causing variants (c.[253G > A];[938G > A]) in the MTO1 gene. In patient 3, we detected one unknown affected and disease-causing variants (c.2872C > T) and one known disease-causing variant (c.1774C > T) in the AARS2 gene. The c.1774C > T variant was present in the paternal copy of the AARS2 gene, the c.2872C > T in the maternal copy. All genes were involved in translation of mtDNA-encoded proteins. Defects in mtDNA-encoded protein translation lead to severe pediatric cardiomyopathy and brain disease with OXPHOS abnormalities. This suggests that the heart and brain are particularly sensitive to defects in mitochondrial protein synthesis during late embryonic or early postnatal development, probably due to the massive mitochondrial biogenesis occurring at that stage. If both the heart and brain are involved, the prognosis is poor with a likely fatal outcome at young age.

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