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METTL17 is an Fe-S cluster checkpoint for mitochondrial translation

Tslil Ast, Yuzuru Itoh, Shayan Sadre, Jason G. McCoy, Gil Namkoong, Jordan Wengrod, Ivan Chicherin, Pallavi R. Joshi, Piotr Kamenski, Daniel L. M. Suess, Alexey Amunts, Vamsi K. Mootha

2024Molecular Cell51 citationsDOIOpen Access PDF

Abstract

Friedreich’s ataxia (FA) is a debilitating, multisystemic disease caused by the depletion of frataxin (FXN), a mitochondrial iron-sulfur (Fe-S) cluster biogenesis factor. To understand the cellular pathogenesis of FA, we performed quantitative proteomics in FXN-deficient human cells. Nearly every annotated Fe-S cluster-containing protein was depleted, indicating that as a rule, cluster binding confers stability to Fe-S proteins. We also observed depletion of a small mitoribosomal assembly factor METTL17 and evidence of impaired mitochondrial translation. Using comparative sequence analysis, mutagenesis, biochemistry, and cryoelectron microscopy, we show that METTL17 binds to the mitoribosomal small subunit during late assembly and harbors a previously unrecognized [Fe4S4]2+ cluster required for its stability. METTL17 overexpression rescued the mitochondrial translation and bioenergetic defects, but not the cellular growth, of FXN-depleted cells. These findings suggest that METTL17 acts as an Fe-S cluster checkpoint, promoting translation of Fe-S cluster-rich oxidative phosphorylation (OXPHOS) proteins only when Fe-S cofactors are replete.

Topics & Concepts

FrataxinBiologyCell biologyMitochondrionTranslation (biology)BiogenesisProtein subunitIron–sulfur clusterPhosphorylationOxidative phosphorylationProteomicsAconitaseBiochemistryGeneMessenger RNAEnzymeMitochondrial Function and PathologyMetalloenzymes and iron-sulfur proteinsRNA modifications and cancer