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Manganese-driven CoQ deficiency

by Diessl, Jutta , Drobysheva, Sofia , Büttner, Sabrina , Pelosi, Ludovic , Vazquez-Calvo, Carmela , Peselj, Carlotta , Vögtle, F.-Nora , Berndtsson, Jens , Habernig, Lukas , Pierrel, Fabien , Broeskamp, Filomena , Nandy, Arpita , Ott, Martin , Kohler, Verena

in 13/1 / 13/31 / 13/44 / 13/89 / 14/19 / 38/79 / 42/40 / 631/45/173 / 631/45/321 / 631/80/82 / 64/24 / 82/80 / 82/83 / Ataxia / Biochemistry, Molecular Biology / Bioenergetics / Biosynthesis / Cell death / Coenzyme Q / coenzyme-q biosynthesis / Electron transport / Energy metabolism / Enzymes / expression / Failure / golgi / Humanities and Social Sciences / Humans / Hydroxylase / in-vivo / iron / Life Sciences / Lipophilic / Manganese / Manganese - toxicity / Metabolism / Mitochondria / Mitochondrial Diseases - metabolism / Mixed Function Oxygenases / Molecular Biology / Molekylärbiologi / multidisciplinary / Muscle Weakness / mutants / Overloading / Oxidative phosphorylation / Phosphorylation / polypeptide / protein / Proteolysis / saccharomyces-cerevisiae / Science / Science & Technology - Other Topics / Science (multidisciplinary) / Supplements / Toxicity / Ubiquinone - deficiency / Ubiquinone - metabolism / yeast

2022

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2022

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2022

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Journal Article

Manganese-driven CoQ deficiency

Diessl, Jutta,

Drobysheva, Sofia,

Büttner, Sabrina,

Pelosi, Ludovic,

Vazquez-Calvo, Carmela,

Peselj, Carlotta,

Vögtle, F.-Nora,

Berndtsson, Jens,

Habernig, Lukas,

Pierrel, Fabien,

Broeskamp, Filomena,

Nandy, Arpita,

Ott, Martin,

Kohler, Verena

2022

Overview

Overexposure to manganese disrupts cellular energy metabolism across species, but the molecular mechanism underlying manganese toxicity remains enigmatic. Here, we report that excess cellular manganese selectively disrupts coenzyme Q (CoQ) biosynthesis, resulting in failure of mitochondrial bioenergetics. While respiratory chain complexes remain intact, the lack of CoQ as lipophilic electron carrier precludes oxidative phosphorylation and leads to premature cell and organismal death. At a molecular level, manganese overload causes mismetallation and proteolytic degradation of Coq7, a diiron hydroxylase that catalyzes the penultimate step in CoQ biosynthesis. Coq7 overexpression or supplementation with a CoQ headgroup analog that bypasses Coq7 function fully corrects electron transport, thus restoring respiration and viability. We uncover a unique sensitivity of a diiron enzyme to mismetallation and define the molecular mechanism for manganese-induced bioenergetic failure that is conserved across species. Across phylae, excess manganese disrupts energy metabolism by unclear mechanisms. Here, Diessl et al. report that failure of mitochondrial bioenergetics upon manganese overload is due to mismetallation of a diiron enzyme crucial for CoQ biosynthesis

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Publisher

Nature Publishing Group UK,Nature Publishing Group,Nature Portfolio

Subject

13/1

/ 13/31

/ 13/44

/ 13/89

/ 14/19

/ 38/79

/ 42/40