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MICU1 Confers Protection from MCU-Dependent Manganese Toxicity.

Cell reports (2018-11-08)
Jennifer Wettmarshausen, Valerie Goh, Kai-Ting Huang, Daniela M Arduino, Utkarsh Tripathi, Anja Leimpek, Yiming Cheng, Alexandros A Pittis, Toni Gabaldón, Dejana Mokranjac, György Hajnóczky, Fabiana Perocchi
RESUMEN

The mitochondrial calcium uniporter is a highly selective ion channel composed of species- and tissue-specific subunits. However, the functional role of each component still remains unclear. Here, we establish a synthetic biology approach to dissect the interdependence between the pore-forming subunit MCU and the calcium-sensing regulator MICU1. Correlated evolutionary patterns across 247 eukaryotes indicate that their co-occurrence may have conferred a positive fitness advantage. We find that, while the heterologous reconstitution of MCU and EMRE in vivo in yeast enhances manganese stress, this is prevented by co-expression of MICU1. Accordingly, MICU1 deletion sensitizes human cells to manganese-dependent cell death by disinhibiting MCU-mediated manganese uptake. As a result, manganese overload increases oxidative stress, which can be effectively prevented by NAC treatment. Our study identifies a critical contribution of MICU1 to the uniporter selectivity, with important implications for patients with MICU1 deficiency, as well as neurological disorders arising upon chronic manganese exposure.