Exclusion of sulfide:quinone oxidoreductase from mitochondria causes Leigh-like disease in mice by impairing sulfide metabolism
Eiki Kanemaru, … , Takaaki Akaike, Fumito Ichinose
Eiki Kanemaru, … , Takaaki Akaike, Fumito Ichinose
Published June 13, 2024
Citation Information: J Clin Invest. 2024;134(15):e170994. https://doi.org/10.1172/JCI170994.
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Research Article Metabolism

Exclusion of sulfide:quinone oxidoreductase from mitochondria causes Leigh-like disease in mice by impairing sulfide metabolism

Abstract

Leigh syndrome is the most common inherited mitochondrial disease in children and is often fatal within the first few years of life. In 2020, mutations in the gene encoding sulfide:quinone oxidoreductase (SQOR), a mitochondrial protein, were identified as a cause of Leigh syndrome. Here, we report that mice with a mutation in the gene encoding SQOR (SqorΔN/ΔN mice), which prevented SQOR from entering mitochondria, had clinical and pathological manifestations of Leigh syndrome. SqorΔN/ΔN mice had increased blood lactate levels that were associated with markedly decreased complex IV activity and increased hydrogen sulfide (H2S) levels. Because H2S is produced by both gut microbiota and host tissue, we tested whether metronidazole (a broad-spectrum antibiotic) or a sulfur-restricted diet rescues SqorΔN/ΔN mice from developing Leigh syndrome. Daily treatment with metronidazole alleviated increased H2S levels, normalized complex IV activity and blood lactate levels, and prolonged the survival of SqorΔN/ΔN mice. Similarly, a sulfur-restricted diet normalized blood lactate levels and inhibited the development of Leigh syndrome. Taken together, these observations suggest that mitochondrial SQOR is essential to prevent systemic accumulation of H2S. Metronidazole administration and a sulfur-restricted diet may be therapeutic approaches to treatment of patients with Leigh syndrome caused by mutations in SQOR.

Authors

Eiki Kanemaru, Kakeru Shimoda, Eizo Marutani, Masanobu Morita, Maria Miranda, Yusuke Miyazaki, Claire Sinow, Rohit Sharma, Fangcong Dong, Donald B. Bloch, Takaaki Akaike, Fumito Ichinose

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Figure 5

Metronidazole decreased systemic H2S levels, alleviated Leigh-like disease, and prolonged the lifespan of SqorΔN/ΔN mice.

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Metronidazole decreased systemic H2S levels, alleviated Leigh-like disea...
(A) Kaplan-Meier survival probability curve of SqorΔN/ΔN mice treated with metronidazole or DMSO (4.4%). Log-rank P value and sample size are shown. (B) Body weight trajectory of SqorΔN/ΔN mice treated with metronidazole or DMSO. n = 10 mice for each group. (C) Body temperature trajectory of SqorΔN/ΔN mice treated with metronidazole or DMSO. n = 10 mice for each group. (D) Results of the rotarod test at postnatal ages 20, 30, 40, and 50 days in SqorΔN/ΔN mice treated with metronidazole or DMSO. Two-tailed t test. n = 5–10 mice for each group. (E) Blood lactate levels at postnatal ages 30, 40, and 50 days in SqorΔN/ΔN mice treated with metronidazole or DMSO. Comparisons between SqorΔN/ΔN mice treated with metronidazole or DMSO were made using unpaired 2-tailed t test. Mixed-effects analysis with Dunnett’s multiple-comparison test was performed to compare blood lactate levels at postnatal ages. n = 4–5 mice for each group. (F) Sulfide levels in feces, brain, liver, and muscle in SqorΔN/ΔN mice treated with metronidazole or DMSO and control mice treated with DMSO (the sulfide level for control mice treated with DMSO was set to 1). Data were analyzed using Kruskal-Wallis test with Dunn’s multiple-comparison test for feces, and 1-way ANOVA with Dunnett’s multiple-comparison test for brain, liver, and muscle. n = 6–7 mice for each group. Data are presented as medians with interquartile range for feces. (G) Histochemical staining was used to assess COX activity in a SqorΔN/ΔN mouse treated with metronidazole or DMSO and a control mouse treated with DMSO. Brown color indicates cytochrome c oxidase activity levels. Scale bars: 100 μm. MNZ, metronidazole. Data are presented as means with SD unless indicated otherwise.