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Journal of Inherited Metabolic Disease
Published in: Journal of Inherited Metabolic Disease 5/2012

Open Access 01-09-2012 | Review

Natural disease course and genotype-phenotype correlations in Complex I deficiency caused by nuclear gene defects: what we learned from 130 cases

Authors: S. Koene, R. J. Rodenburg, M. S. van der Knaap, M. A. A. P. Willemsen, W. Sperl, V. Laugel, E. Ostergaard, M. Tarnopolsky, M. A. Martin, V. Nesbitt, J. Fletcher, S. Edvardson, V. Procaccio, A. Slama, L. P. W. J. van den Heuvel, J. A. M. Smeitink

Published in: Journal of Inherited Metabolic Disease | Issue 5/2012

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Abstract

Mitochondrial complex I is the largest multi-protein enzyme complex of the oxidative phosphorylation system. Seven subunits of this complex are encoded by the mitochondrial and the remainder by the nuclear genome. We review the natural disease course and signs and symptoms of 130 patients (four new cases and 126 from literature) with mutations in nuclear genes encoding structural complex I proteins or those involved in its assembly. Complex I deficiency caused by a nuclear gene defect is usually a non-dysmorphic syndrome, characterized by severe multi-system organ involvement and a poor prognosis. Age at presentation may vary, but is generally within the first year of life. The most prevalent symptoms include hypotonia, nystagmus, respiratory abnormalities, pyramidal signs, dystonia, psychomotor retardation or regression, failure to thrive, and feeding problems. Characteristic symptoms include brainstem involvement, optic atrophy and Leigh syndrome on MRI, either or not in combination with internal organ involvement and lactic acidemia. Virtually all children ultimately develop Leigh syndrome or leukoencephalopathy. Twenty-five percent of the patients died before the age of six months, more than half before the age of two and 75 % before the age of ten years. Some patients showed recovery of certain skills or are still alive in their thirties . No clinical, biochemical, or genetic parameters indicating longer survival were found. No clear genotype-phenotype correlations were observed, however defects in some genes seem to be associated with a better or poorer prognosis, cardiomyopathy, Leigh syndrome or brainstem lesions.
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Literature
Anderson SL, Chung WK, Frezzo J et al (2008) A novel mutation in NDUFS4 causes Leigh syndrome in an Ashkenazi Jewish family. J Inherit Metab Dis. Supplement 2:S461–467CrossRef
Angerer H, Zwicker K, Wumaier Z et al (2011) A scaffold of accessory subunits links the peripheral arm and the distal proton-pumping module of mitochondrial complex I. Biochem J 437:279–288
Barghuti F, Elian K, Gomori JM et al (2008) The unique neuroradiology of complex I deficiency due to NDUFA12L defect. Mol Genet Metab 94:78–82
Benit P, Chretien D, Kadhom N et al (2001) Large-scale deletion and point mutations of the nuclear NDUFV1 and NDUFS1 genes in mitochondrial complex I deficiency. Am J Hum Genet 68:1344–1352
Benit P, Beugnot R, Chretien D et al (2003) Mutant NDUFV2 subunit of mitochondrial complex I causes early onset hypertrophic cardiomyopathy and encephalopathy. Hum Mutat 21:582–586
Bentlage HA, Wendel U, Schagger H et al (1996) Lethal infantile mitochondrial disease with isolated complex I deficiency in fibroblasts but with combined complex I and IV deficiencies in muscle. Neurology 47:243–248
Berger I, Hershkovitz E, Shaag A et al (2008) Mitochondrial complex I deficiency caused by a deleterious NDUFA11 mutation. Ann Neurol 63:405–408
Brandt U (2006) Energy converting NADH:quinone oxidoreductase (complex I). Annu Rev Biochem 75:69–92
Breningstall GN, Shoffner J, Patterson RJ (2008) Siblings with leukoencephalopathy. Semin Pediatr Neurol 15:212–215
Budde SM, van den Heuvel LP, Janssen AJ et al (2000) Combined enzymatic complex I and III deficiency associated with mutations in the nuclear encoded NDUFS4 gene. Biochem Biophys Res Commun 275:63–68
Budde SM, van den Heuvel LP, Smeets RJ et al (2003) Clinical heterogeneity in patients with mutations in the NDUFS4 gene of mitochondrial complex I. J Inherit Metab Dis 26:813–815
Bugiani M, Invernizzi F, Alberio S et al (2004) Clinical and molecular findings in children with complex I deficiency. Biochim Biophys Acta 1659:136–147
Calvo SE, Tucker EJ, Compton AG et al (2010) High-throughput, pooled sequencing identifies mutations in NUBPL and FOXRED1 in human complex I deficiency. Nat Genet 42:851–858
Carroll J, Fearnley IM, Skehel JM et al (2006) Bovine complex I is a complex of 45 different subunits. J Biol Chem 281:32724–32727
Clason T, Ruiz T, Schagger H et al (2010) The structure of eukaryotic and prokaryotic complex I. J Struct Biol 169:81–88
Distelmaier F, Koopman WJ, van den Heuvel LP et al (2009) Mitochondrial complex I deficiency: from organelle dysfunction to clinical disease. Brain 132:833–842
Dunning CJ, McKenzie M, Sugiana C et al (2007) Human CIA30 is involved in the early assembly of mitochondrial complex I and mutations in its gene cause disease. EMBO J 26:3227–3237
Efremov RG, Baradaran R, Sazanov LA (2010) The architecture of respiratory complex I. Nature 465:441–445
Fassone E, Duncan AJ, Taanman JW et al (2010) FOXRED1, encoding an FAD-dependent oxidoreductase complex-I-specific molecular chaperone, is mutated in infantile-onset mitochondrial encephalopathy. Hum Mol Genet 19:4837–4847
Fernandez-Moreira D, Ugalde C, Smeets R et al (2007) X-linked NDUFA1 gene mutations associated with mitochondrial encephalomyopathy. Ann Neurol 61:73–83
Ferreira M, Torraco A, Rizza T et al (2011) Progressive cavitating leukoencephalopathy associated with respiratory chain complex I deficiency and a novel mutation in NDUFS1. Neurogenetics 12:9–17
Finsterer J (2008) Leigh and Leigh-like syndrome in children and adults. Pediatr Neurol 39:223–235
Gerards M, van den Bosch BJ, Danhauser K et al (2011) Riboflavin-responsive oxidative phosphorylation complex I deficiency caused by defective ACAD9: new function for an old gene. Brain 134:210–219
Haack TB, Danhauser K, Haberberger B et al (2010) Exome sequencing identifies ACAD9 mutations as a cause of complex I deficiency. Nat Genet 42: 1131–1134
Hoefs SJ, Dieteren CE, Distelmaier F et al (2008) NDUFA2 complex I mutation leads to Leigh disease. Am J Hum Genet 82:1306–1315
Hoefs SJ, Dieteren CE, Rodenburg RJ et al (2009) Baculovirus complementation restores a novel NDUFAF2 mutation causing complex I deficiency. Hum Mutat 30:E728–736
Hoefs SJ, Skjeldal OH, Rodenburg RJ et al (2010) Novel mutations in the NDUFS1 gene cause low residual activities in human complex I deficiencies. Mol Genet Metab 100:251–256
Hoefs SJ, van Spronsen FJ, Lenssen EW et al (2011) NDUFA10 mutations cause complex I deficiency in a patient with Leigh disease. Eur J Hum Genet 19:270–274
Janssen AJ, Trijbels FJ, Sengers RC et al (2006a) Measurement of the energy-generating capacity of human muscle mitochondria: diagnostic procedure and application to human pathology. Clin Chem 52:860–871
Janssen RJ, Nijtmans LG, van den Heuvel LP et al (2006b) Mitochondrial complex I: structure, function and pathology. J Inherit Metab Dis 29:499–515
Kirby DM, Salemi R, Sugiana C et al (2004) NDUFS6 mutations are a novel cause of lethal neonatal mitochondrial complex I deficiency. J Clin Invest 114:837–845
Koopman WJ, Willems PH, Smeitink JA (2012) Monogenic mitochondrial disorders. N Engl J Med 366:1132–41
Laugel V, This-Bernd V, Cormier-Daire V et al (2007) Early-onset ophthalmoplegia in Leigh-like syndrome due to NDUFV1 mutations. Pediatr Neurol 36:54–57
Lebon S, Minai L, Chretien D et al (2007a) A novel mutation of the NDUFS7 gene leads to activation of a cryptic exon and impaired assembly of mitochondrial complex I in a patient with Leigh syndrome. Mol Genet Metab 92:104–108
Lebon S, Rodriguez D, Bridoux D et al (2007b) A novel mutation in the human complex I NDUFS7 subunit associated with Leigh syndrome. Mol Genet Metab 90:379–382
Leigh D (1951) Subacute necrotizing encephalomyelopathy in an infant. J Neurol Neurosurg Psychiatry 14:216–221
Leshinsky-Silver E, Lebre AS, Minai L et al (2009) NDUFS4 mutations cause Leigh syndrome with predominant brainstem involvement. Mol Genet Metab 97:185–189
Loeffen J, Smeitink J, Triepels R et al (1998) The first nuclear-encoded complex I mutation in a patient with Leigh syndrome. Am J Hum Genet 63:1598–1608
Loeffen JL, Smeitink JA, Trijbels JM et al (2000) Isolated complex I deficiency in children: clinical, biochemical and genetic aspects. Hum Mutat 15:123–134
Loeffen J, Elpeleg O, Smeitink J et al (2001) Mutations in the complex I NDUFS2 gene of patients with cardiomyopathy and encephalomyopathy. Ann Neurol 49:195–201
Martin MA, Blazquez A, Gutierrez-Solana LG et al (2005) Leigh syndrome associated with mitochondrial complex I deficiency due to a novel mutation in the NDUFS1 gene. Arch Neurol 62:659–661
Mayr JA, Bodamer O, Haack TB et al (2011) Heterozygous mutation in the X chromosomal NDUFA1 gene in a girl with complex I deficiency. Mol Genet Metab 103:358–361
McFarland R, Taylor RW, Turnbull DM (2010) A neurological perspective on mitochondrial disease. Lancet Neurol 9:829–840
McKenzie M, Ryan MT (2010) Assembly factors of human mitochondrial complex I and their defects in disease. IUBMB Life 62:497–502
Morava E, Rodenburg R, van Essen HZ et al (2006) Dietary intervention and oxidative phosphorylation capacity. J Inherit Metab Dis 29:589
Nouws J, Nijtmans L, Houten S et al (2010) Acyl-CoA dehydrogenase 9 is required for the biogenesis of oxidative phosphorylation complex I. Cell Metabolism (In press)
Ogilvie I, Kennaway NG, Shoubridge EA (2005) A molecular chaperone for mitochondrial complex I assembly is mutated in a progressive encephalopathy. J Clin Invest 115:2784–2792
Ostergaard E, Rodenburg RJ, van den Brand M et al (2011) Respiratory chain complex I deficiency due to NDUFA12 mutations as a new cause of Leigh syndrome. J Med Genet 48:737–740
Pagliarini DJ, Calvo SE, Chang B et al (2008) A mitochondrial protein compendium elucidates complex I disease biology. Cell 134:112–123
Pagniez-Mammeri H, Landrieu P, Legrand A et al (2010) Leukoencephalopathy with vanishing white matter caused by compound heterozygous mutations in mitochondrial complex I NDUFS1 subunit. Mol Genet Metab 101:297–298
Papa S, Scacco S, Sardanelli AM et al (2001) Mutation in the NDUFS4 gene of complex I abolishes cAMP-dependent activation of the complex in a child with fatal neurological syndrome. FEBS Lett 489:259–262
Petruzzella V, Vergari R, Puzziferri I et al (2001) A nonsense mutation in the NDUFS4 gene encoding the 18 kDa (AQDQ) subunit of complex I abolishes assembly and activity of the complex in a patient with Leigh-like syndrome. Hum Mol Genet 10:529–535
Phoenix C, Schaefer AM, Elson JL et al (2006) A scale to monitor progression and treatment of mitochondrial disease in children. Neuromuscul Disord 16:814–820
Pitkanen S, Feigenbaum A, Laframboise R et al (1996) NADH-coenzyme Q reductase (complex I) deficiency: heterogeneity in phenotype and biochemical findings. J Inherit Metab Dis 19:675–686
Potluri P, Davila A, Ruiz-Pesini E et al (2009) A novel NDUFA1 mutation leads to a progressive mitochondrial complex I-specific neurodegenerative disease. Mol Genet Metab 96:189–195
Procaccio V, Wallace DC (2004) Late-onset Leigh syndrome in a patient with mitochondrial complex I NDUFS8 mutations. Neurology 62:1899–1901
Rahman S, Blok RB, Dahl HH et al (1996) Leigh syndrome: clinical features and biochemical and DNA abnormalities. Ann Neurol 39:343–351
Saada A, Edvardson S, Rapoport M et al (2008) C6ORF66 is an assembly factor of mitochondrial complex I. Am J Hum Genet 82:32–38
Saada A, Vogel RO, Hoefs SJ et al (2009) Mutations in NDUFAF3 (C3ORF60), encoding an NDUFAF4 (C6ORF66)-interacting complex I assembly protein, cause fatal neonatal mitochondrial disease. Am J Hum Genet 84:718–727
Saada A, Edvardson S, Shaag A et al (2011) Combined OXPHOS complex I and IV defect, due to mutated complex I assembly factor C20ORF7. J Inherit Metab Dis. doi:10.​1007/​s10545-011-9348-y
Scaglia F, Towbin JA, Craigen WJ et al (2004) Clinical spectrum, morbidity, and mortality in 113 pediatric patients with mitochondrial disease. Pediatrics 114:925–931
Schuelke M, Smeitink J, Mariman E et al (1999) Mutant NDUFV1 subunit of mitochondrial complex I causes leukodystrophy and myoclonic epilepsy. Nat Genet 21:260–261
Spiegel R, Shaag A, Mandel H et al (2009) Mutated NDUFS6 is the cause of fatal neonatal lactic acidemia in Caucasus Jews. Eur J Hum Genet 17:1200–1203
Sugiana C, Pagliarini DJ, McKenzie M et al (2008) Mutation of C20orf7 disrupts complex I assembly and causes lethal neonatal mitochondrial disease. Am J Hum Genet 83:468–478
Swalwell H, Kirby DM, Blakely EL et al (2011) Respiratory chain complex I deficiency caused by mitochondrial DNA mutations. Eur J Hum Genet 19:769–775
Triepels RH, van den Heuvel LP, Loeffen JL et al (1999) Leigh syndrome associated with a mutation in the NDUFS7 (PSST) nuclear encoded subunit of complex I. Ann Neurol 45:787–790
Tucker EJ, Compton AG, Calvo SE et al (2011) The molecular basis of human complex I deficiency. IUBMB Life 63(9):669–677
Tuppen HA, Hogan VE, He L et al (2010) The p.M292T NDUFS2 mutation causes complex I-deficient Leigh syndrome in multiple families. Brain 133: 2952–2963
van den Heuvel L, Ruitenbeek W, Smeets R et al (1998) Demonstration of a new pathogenic mutation in human complex I deficiency: a 5-bp duplication in the nuclear gene encoding the 18-kD (AQDQ) subunit. Am J Hum Genet 62:262–268
Vogel RO, Smeitink JA, Nijtmans LG (2007) Human mitochondrial complex I assembly: a dynamic and versatile process. Biochim Biophys Acta 1767: 1215–1227
Wispe JR, Warner BB, Clark JC et al (1992) Human Mn-superoxide dismutase in pulmonary epithelial cells of transgenic mice confers protection from oxygen injury. J Biol Chem 267:23937–23941
Zafeiriou DI, Rodenburg RJ, Scheffer H et al (2008) MR spectroscopy and serial magnetic resonance imaging in a patient with mitochondrial cystic leukoencephalopathy due to complex I deficiency and NDUFV1 mutations and mild clinical course. Neuropediatrics 39:172–175
Metadata
Title
Natural disease course and genotype-phenotype correlations in Complex I deficiency caused by nuclear gene defects: what we learned from 130 cases
Authors
S. Koene
R. J. Rodenburg
M. S. van der Knaap
M. A. A. P. Willemsen
W. Sperl
V. Laugel
E. Ostergaard
M. Tarnopolsky
M. A. Martin
V. Nesbitt
J. Fletcher
S. Edvardson
V. Procaccio
A. Slama
L. P. W. J. van den Heuvel
J. A. M. Smeitink
Publication date
01-09-2012
Publisher
Springer Netherlands
Published in
Journal of Inherited Metabolic Disease / Issue 5/2012
Print ISSN: 0141-8955
Electronic ISSN: 1573-2665
DOI
https://doi.org/10.1007/s10545-012-9492-z

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