Metformin delays neurological symptom onset in a mouse model of neuronal complex I deficiency
Susana Peralta, Milena Pinto, Tania Arguello, Sofia Garcia, Francisca Diaz, Carlos T. Moraes
Susana Peralta, Milena Pinto, Tania Arguello, Sofia Garcia, Francisca Diaz, Carlos T. Moraes
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Research Article Genetics

Metformin delays neurological symptom onset in a mouse model of neuronal complex I deficiency

Abstract

Complex I (also known as NADH-ubiquinone oxidoreductase) deficiency is the most frequent mitochondrial disorder present in childhood. NADH-ubiquinone oxidoreductase iron-sulfur protein 3 (NDUFS3) is a catalytic subunit of the mitochondrial complex I; NDUFS3 is conserved from bacteria and essential for complex I function. Mutations affecting complex I, including in the Ndufs3 gene, cause fatal neurodegenerative diseases, such as Leigh syndrome. No treatment is available for these conditions. We developed and performed a detailed molecular characterization of a neuron-specific Ndufs3 conditional KO mouse model. We showed that deletion of Ndufs3 in forebrain neurons reduced complex I activity, altered brain energy metabolism, and increased locomotor activity with impaired motor coordination, balance, and stereotyped behavior. Metabolomics analyses showed an increase of glycolysis intermediates, suggesting an adaptive response to the complex I defect. Administration of metformin to these mice delayed the onset of the neurological symptoms but not of neuronal loss. This improvement was likely related to enhancement of glucose uptake and utilization, which are known effects of metformin in the brain. Despite reports that metformin inhibits complex I activity, our findings did not show worsening a complex I defect nor increases in lactic acid, suggesting that metformin should be further evaluated for use in patients with mitochondrial encephalopathies.

Authors

Susana Peralta, Milena Pinto, Tania Arguello, Sofia Garcia, Francisca Diaz, Carlos T. Moraes

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Figure 7

Metformin treatment does not affect OXPHOS complex activities or OXPHOS steady-state levels in Ndufs3 nKO mice.

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Metformin treatment does not affect OXPHOS complex activities or OXPHOS ...
(AD) Spectrophotometric complex I/citrate synthase, complex III/citrate synthase, and complex IV/citrate synthase activity ratios and citrate synthase /protein activity ratios were measured in cortex homogenates from 4-month-old female mice. Data are represented as mean ± SEM (n = 4–9/group). P values were determined by 1-way ANOVA followed by Bonferroni’s post hoc comparison. (E) Steady-state levels of supercomplexes of complex I, III, and complexes IV and II measured by BN-PAGE in cortex homogenates from 4-month-old female mice using antibodies against NDUFS3 and NDUFB8 (complex I subunits), UQCRC1 (complex III), COX1 (complex IV), and SDHA (complex II) subunits. (FI) Quantification of the BN-PAGE showed in E (n = 3/group). (J and K) Western blot and quantification of protein homogenates from motor cortices of 4-month-old female mice treated with vehicle or metformin using antibodies NDUFS3 and NDUFB8 (complex I subunits), COX1 (complex IV subunit), and β-actin. Data are represented as mean ± SEM (n = 3/group). P values were determined by 1-way ANOVA followed by Bonferroni’s post hoc comparison. *P < 0.05, **P < 0.01, ***P < 0.001.