A previously uncharacterized Factor Associated with Metabolism and Energy (FAME/C14orf105/CCDC198/1700011H14Rik) is related to evolutionary adaptation, energy balance, and kidney physiology

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Authors	PETERSEN Julian ENGLMAIER Lukas ARTEMOV Artem V POVERENNAYA Irina MAHMOUD Ruba BOUDERLIQUE Thibault TESAROVA Marketa DEVIATIIAROV Ruslan SZILVASY-SZABO Anett AKKURATOV Evgeny E DAVID Pajuelo Reguera ZEBERG Hugo KAUCKA Marketa KASTRITI Maria Eleni KŘIVÁNEK Jan RADASZKIEWICZ Tomasz Witold GÖMÖRYOVÁ Kristína KNAUTH Sarah POTĚŠIL David ZDRÁHAL Zbyněk GANJI Sri Ranjani GRABOWSKI Anna BUHL Miriam E ZIKMUND Tomas KAVKOVÁ Michaela AXELSON Hakan LINDGREN David KRAMANN Rafael KUPPE Christoph ERDELYI Ferenc MATE Zoltan SZABO Gabor KOEHNE Till HARKANY Tibor FRIED Kaj KAISER Jozef BOOR Peter FEKETE Csaba ROZMAN Jan KASPAREK Petr PROCHAZKA Jan SEDLACEK Radislav BRYJA Vítězslav GUSEV Oleg ADAMEYKO Igor
Year of publication	2023
Type	Article in Periodical
Magazine / Source	Nature Communications
MU Faculty or unit	Faculty of Science
Citation
Web	https://www.nature.com/articles/s41467-023-38663-7
Doi	http://dx.doi.org/10.1038/s41467-023-38663-7
Keywords	Evolutionary genetics; Genetic models; Kidney; Protein
Description	In this study we use comparative genomics to uncover a gene with uncharacterized function (1700011H14Rik/C14orf105/CCDC198), which we hereby name FAME (Factor Associated with Metabolism and Energy). We observe that FAME shows an unusually high evolutionary divergence in birds and mammals. Through the comparison of single nucleotide polymorphisms, we identify gene flow of FAME from Neandertals into modern humans. We conduct knockout experiments on animals and observe altered body weight and decreased energy expenditure in Fame knockout animals, corresponding to genome-wide association studies linking FAME with higher body mass index in humans. Gene expression and subcellular localization analyses reveal that FAME is a membrane-bound protein enriched in the kidneys. Although the gene knockout results in structurally normal kidneys, we detect higher albumin in urine and lowered ferritin in the blood. Through experimental validation, we confirm interactions between FAME and ferritin and show co-localization in vesicular and plasma membranes.
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