Literature DB >> 21364701

Respiratory chain complex I deficiency caused by mitochondrial DNA mutations.

Helen Swalwell1, Denise M Kirby, Emma L Blakely, Anna Mitchell, Renato Salemi, Canny Sugiana, Alison G Compton, Elena J Tucker, Bi-Xia Ke, Phillipa J Lamont, Douglass M Turnbull, Robert McFarland, Robert W Taylor, David R Thorburn.   

Abstract

Defects of the mitochondrial respiratory chain are associated with a diverse spectrum of clinical phenotypes, and may be caused by mutations in either the nuclear or the mitochondrial genome (mitochondrial DNA (mtDNA)). Isolated complex I deficiency is the most common enzyme defect in mitochondrial disorders, particularly in children in whom family history is often consistent with sporadic or autosomal recessive inheritance, implicating a nuclear genetic cause. In contrast, although a number of recurrent, pathogenic mtDNA mutations have been described, historically, these have been perceived as rare causes of paediatric complex I deficiency. We reviewed the clinical and genetic findings in a large cohort of 109 paediatric patients with isolated complex I deficiency from 101 families. Pathogenic mtDNA mutations were found in 29 of 101 probands (29%), 21 in MTND subunit genes and 8 in mtDNA tRNA genes. Nuclear gene defects were inferred in 38 of 101 (38%) probands based on cell hybrid studies, mtDNA sequencing or mutation analysis (nuclear gene mutations were identified in 22 probands). Leigh or Leigh-like disease was the most common clinical presentation in both mtDNA and nuclear genetic defects. The median age at onset was higher in mtDNA patients (12 months) than in patients with a nuclear gene defect (3 months). However, considerable overlap existed, with onset varying from 0 to >60 months in both groups. Our findings confirm that pathogenic mtDNA mutations are a significant cause of complex I deficiency in children. In the absence of parental consanguinity, we recommend whole mitochondrial genome sequencing as a key approach to elucidate the underlying molecular genetic abnormality.

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Year:  2011        PMID: 21364701      PMCID: PMC3137493          DOI: 10.1038/ejhg.2011.18

Source DB:  PubMed          Journal:  Eur J Hum Genet        ISSN: 1018-4813            Impact factor:   4.246


  51 in total

1.  A novel recurrent mitochondrial DNA mutation in ND3 gene is associated with isolated complex I deficiency causing Leigh syndrome and dystonia.

Authors:  Emmanuelle Sarzi; Michael D Brown; Sophie Lebon; Dominique Chretien; Arnold Munnich; Agnès Rotig; Vincent Procaccio
Journal:  Am J Med Genet A       Date:  2007-01-01       Impact factor: 2.802

2.  NDUFA2 complex I mutation leads to Leigh disease.

Authors:  Saskia J G Hoefs; Cindy E J Dieteren; Felix Distelmaier; Rolf J R J Janssen; Andrea Epplen; Herman G P Swarts; Marleen Forkink; Richard J Rodenburg; Leo G Nijtmans; Peter H Willems; Jan A M Smeitink; Lambert P van den Heuvel
Journal:  Am J Hum Genet       Date:  2008-06       Impact factor: 11.025

Review 3.  Isolated complex I deficiency in children: clinical, biochemical and genetic aspects.

Authors:  J L Loeffen; J A Smeitink; J M Trijbels; A J Janssen; R H Triepels; R C Sengers; L P van den Heuvel
Journal:  Hum Mutat       Date:  2000       Impact factor: 4.878

4.  Human NADH:ubiquinone oxidoreductase.

Authors:  J Smeitink; R Sengers; F Trijbels; L van den Heuvel
Journal:  J Bioenerg Biomembr       Date:  2001-06       Impact factor: 2.945

5.  The mitochondrial DNA C3303T mutation can cause cardiomyopathy and/or skeletal myopathy.

Authors:  C Bruno; D M Kirby; Y Koga; B Garavaglia; G Duran; F M Santorelli; L K Shield; W Xia; S Shanske; J D Goldstein; R Iwanaga; Y Akita; F Carrara; A Davis; M Zeviani; D R Thorburn; S DiMauro
Journal:  J Pediatr       Date:  1999-08       Impact factor: 4.406

6.  Defective intramitochondrial NADH oxidation in skin fibroblasts from an infant with fatal neonatal lacticacidemia.

Authors:  B H Robinson; N McKay; P Goodyer; G Lancaster
Journal:  Am J Hum Genet       Date:  1985-09       Impact factor: 11.025

7.  Deficiency of the iron-sulfur clusters of mitochondrial reduced nicotinamide-adenine dinucleotide-ubiquinone oxidoreductase (complex I) in an infant with congenital lactic acidosis.

Authors:  R W Moreadith; M L Batshaw; T Ohnishi; D Kerr; B Knox; D Jackson; R Hruban; J Olson; B Reynafarje; A L Lehninger
Journal:  J Clin Invest       Date:  1984-09       Impact factor: 14.808

8.  A mitochondrial protein compendium elucidates complex I disease biology.

Authors:  David J Pagliarini; Sarah E Calvo; Betty Chang; Sunil A Sheth; Scott B Vafai; Shao-En Ong; Geoffrey A Walford; Canny Sugiana; Avihu Boneh; William K Chen; David E Hill; Marc Vidal; James G Evans; David R Thorburn; Steven A Carr; Vamsi K Mootha
Journal:  Cell       Date:  2008-07-11       Impact factor: 41.582

9.  Mutations in NDUFAF3 (C3ORF60), encoding an NDUFAF4 (C6ORF66)-interacting complex I assembly protein, cause fatal neonatal mitochondrial disease.

Authors:  Ann Saada; Rutger O Vogel; Saskia J Hoefs; Mariël A van den Brand; Hans J Wessels; Peter H Willems; Hanka Venselaar; Avraham Shaag; Flora Barghuti; Orit Reish; Mordechai Shohat; Martijn A Huynen; Jan A M Smeitink; Lambert P van den Heuvel; Leo G Nijtmans
Journal:  Am J Hum Genet       Date:  2009-05-21       Impact factor: 11.025

10.  Bovine complex I is a complex of 45 different subunits.

Authors:  Joe Carroll; Ian M Fearnley; J Mark Skehel; Richard J Shannon; Judy Hirst; John E Walker
Journal:  J Biol Chem       Date:  2006-09-01       Impact factor: 5.157
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  48 in total

Review 1.  Genotype to phenotype: Diet-by-mitochondrial DNA haplotype interactions drive metabolic flexibility and organismal fitness.

Authors:  Wen C Aw; Samuel G Towarnicki; Richard G Melvin; Neil A Youngson; Michael R Garvin; Yifang Hu; Shaun Nielsen; Torsten Thomas; Russell Pickford; Sonia Bustamante; Antón Vila-Sanjurjo; Gordon K Smyth; J William O Ballard
Journal:  PLoS Genet       Date:  2018-11-06       Impact factor: 5.917

Review 2.  Mitochondrial Diseases Part I: mouse models of OXPHOS deficiencies caused by defects in respiratory complex subunits or assembly factors.

Authors:  Alessandra Torraco; Susana Peralta; Luisa Iommarini; Francisca Diaz
Journal:  Mitochondrion       Date:  2015-02-04       Impact factor: 4.160

3.  The evolutionarily conserved iron-sulfur protein INDH is required for complex I assembly and mitochondrial translation in Arabidopsis [corrected].

Authors:  Mateusz M Wydro; Pia Sharma; Jonathan M Foster; Katrine Bych; Etienne H Meyer; Janneke Balk
Journal:  Plant Cell       Date:  2013-10-31       Impact factor: 11.277

Review 4.  NDUFS6 related Leigh syndrome: a case report and review of the literature.

Authors:  Cécile Rouzier; Annabelle Chaussenot; Konstantina Fragaki; Valérie Serre; Samira Ait-El-Mkadem; Christian Richelme; Véronique Paquis-Flucklinger; Sylvie Bannwarth
Journal:  J Hum Genet       Date:  2019-04-04       Impact factor: 3.172

5.  Exome sequencing of patients with histiocytoid cardiomyopathy reveals a de novo NDUFB11 mutation that plays a role in the pathogenesis of histiocytoid cardiomyopathy.

Authors:  Bahig M Shehata; Caitlin A Cundiff; Kevin Lee; Ankit Sabharwal; Mukesh Kumar Lalwani; Angela K Davis; Vartika Agrawal; Sridhar Sivasubbu; Glen J Iannucci; Greg Gibson
Journal:  Am J Med Genet A       Date:  2015-04-29       Impact factor: 2.802

6.  Biparental Inheritance of Mitochondrial DNA in Humans.

Authors:  Shiyu Luo; C Alexander Valencia; Jinglan Zhang; Ni-Chung Lee; Jesse Slone; Baoheng Gui; Xinjian Wang; Zhuo Li; Sarah Dell; Jenice Brown; Stella Maris Chen; Yin-Hsiu Chien; Wuh-Liang Hwu; Pi-Chuan Fan; Lee-Jun Wong; Paldeep S Atwal; Taosheng Huang
Journal:  Proc Natl Acad Sci U S A       Date:  2018-11-26       Impact factor: 11.205

Review 7.  Mitochondrial dysfunction in glial cells: Implications for neuronal homeostasis and survival.

Authors:  Jordan Rose; Christian Brian; Jade Woods; Aglaia Pappa; Mihalis I Panayiotidis; Robert Powers; Rodrigo Franco
Journal:  Toxicology       Date:  2017-06-26       Impact factor: 4.221

Review 8.  Long survival in patients with leigh syndrome and the m.10191T>C mutation in MT-ND3 : a case report and review of the literature.

Authors:  Rebecca J Levy; Purificación Gutierrez Ríos; Hasan O Akman; Monica Sciacco; Darryl C De Vivo; Salvatore DiMauro
Journal:  J Child Neurol       Date:  2013-11-27       Impact factor: 1.987

9.  Bromodomain Inhibitors Correct Bioenergetic Deficiency Caused by Mitochondrial Disease Complex I Mutations.

Authors:  Joeva J Barrow; Eduardo Balsa; Francisco Verdeguer; Clint D J Tavares; Meghan S Soustek; Louis R Hollingsworth; Mark Jedrychowski; Rutger Vogel; Joao A Paulo; Jan Smeitink; Steve P Gygi; John Doench; David E Root; Pere Puigserver
Journal:  Mol Cell       Date:  2016-09-22       Impact factor: 17.970

10.  Mitochondrial complex I deficiency enhances skeletal myogenesis but impairs insulin signaling through SIRT1 inactivation.

Authors:  Jin Hong; Bong-Woo Kim; Hyo-Jung Choo; Jung-Jin Park; Jae-Sung Yi; Dong-Min Yu; Hyun Lee; Gye-Soon Yoon; Jae-Seon Lee; Young-Gyu Ko
Journal:  J Biol Chem       Date:  2014-06-03       Impact factor: 5.157
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