Rapid Identification of a Novel Complex I MT-ND3 m.10134C>A Mutation in a Leigh Syndrome Patient

NADH dehydrogenase (ubiquinone) Fe-S protein 8 (NDUFS8) is a nuclear-encoded core subunit of human mitochondrial complex I. Defects in NDUFS8 are associated with Leigh syndrome and encephalomyopathy. Cell-penetrating peptide derived from the HIV-1 transactivator of transcription protein (TAT) has been successfully applied as a carrier to bring fusion proteins into cells without compromising the biological function of the cargoes. In this study, we developed a TAT-mediated protein transduction system to rescue complex I deficiency caused by NDUFS8 defects. Two fusion proteins (TAT-NDUFS8 and NDUFS8-TAT) were exogenously expressed and purified from Escherichia coli for transduction of human cells. In addition, similar constructs were generated and used in transfection studies for comparison. The results showed that both exogenous TAT-NDUFS8 and NDUFS8-TAT were delivered into mitochondria and correctly processed. Interestingly, the mitochondrial import of TAT-containing NDUFS8 was independent of mitochondrial membrane potential. Treatment with TAT-NDUFS8 not only significantly improved the assembly of complex I in an NDUFS8-deficient cell line, but also partially rescued complex I functions both in the in-gel activity assay and the oxygen consumption assay. Our current findings suggest the considerable potential of applying the TAT-mediated protein transduction system for treatment of complex I deficiency.

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P311 Defective Complex I assembly due to C20orf7 mutations as a new cause of Leigh syndrome

European Journal of Paediatric Neurology ◽

10.1016/s1090-3798(09)70369-1 ◽

2009 ◽

Vol 13 ◽

pp. S118

Author(s):

I.F.M. de Coo ◽

M. Gerards ◽

W. Sluiter ◽

B.J.C. van den Bosch ◽

M. Frentzen ◽

...

Keyword(s):

Complex I ◽

Leigh Syndrome ◽

Complex I Assembly

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A novel mitochondrial m.14430A>G (MT-ND6, p.W82R) variant causes complex I deficiency and mitochondrial Leigh syndrome

Clinical Chemistry and Laboratory Medicine (CCLM) ◽

10.1515/cclm-2020-0150 ◽

2020 ◽

Vol 58 (11) ◽

pp. 1809-1817

Author(s):

Miaomiao Du ◽

Xiujuan Wei ◽

Pu Xu ◽

Anran Xie ◽

Xiyue Zhou ◽

...

Keyword(s):

Mitochondrial Respiration ◽

Complex I ◽

Clinical Symptoms ◽

Lactate Production ◽

Mitochondrial Diseases ◽

Leigh Syndrome ◽

Extracellular Lactate ◽

Next Generation Sequencing Ngs ◽

Mutant Cells ◽

Generation Sequencing

AbstractObjectivesLeigh syndrome (LS) is one of the most common mitochondrial diseases and has variable clinical symptoms. However, the genetic variant spectrum of this disease is incomplete.MethodsNext-generation sequencing (NGS) was used to identify the m.14430A > G (p.W82R) variant in a patient with LS. The pathogenesis of this novel complex I (CI) variant was verified by determining the mitochondrial respiration, assembly of CI, ATP, MMP and lactate production, and cell growth rate in cybrids with and without this variant.ResultsA novel m.14430A > G (p.W82R) variant in the NADH dehydrogenase 6 (ND6) gene was identified in the patient; the mutant loads of m.14430A > G (p.W82R) in the patient were much higher than those in his mother. Although the transmitochondrial cybrid-based study showed that mitochondrial CI assembly remains unaffected in cells with the m.14430G variant, control cells had significantly higher endogenous and CI-dependent mitochondrial respiration than mutant cells. Accordingly, mutant cells had a lower ATP, MMP and higher extracellular lactate production than control cells. Notably, mutant cells had impaired growth in a galactose-containing medium when compared to wild-type cells.ConclusionsA novel m.14430A > G (p.W82R) variant in the ND6 gene was identified from a patient suspected to have LS, and this variant impaired mitochondrial respiration by decreasing the activity of mitochondrial CI.

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