Friedreich's ataxia is a neurodegenerative disease caused by mutations in the frataxin gene. Frataxin homologues, including bacterial CyaY proteins, can be found in most species and play a fundamental role in mitochondrial iron homeostasis, either promoting iron assembly into metaloproteins or contributing to iron detoxification. While several lines of evidence suggest that eukaryotic frataxins are more effective than bacterial ones in iron detoxification, the residues involved in this gain of function are unknown. In this work, we analyze conservation of amino acid sequence and protein structure among frataxins and CyaY proteins to identify four highly conserved residue clusters and group them into potential functional clusters. Clusters 1, 2, and 4 are present in eukaryotic frataxins and bacterial CyaY proteins. Cluster 3, containing two serines, a tyrosine, and a glutamate, is only present in eukaryotic frataxins and on CyaY proteins from the genus. Residues from cluster 3 are blocking a small cavity of about 40 Å present in 's CyaY. The function of this cluster is unknown, but we hypothesize that its tyrosine may contribute to prevent formation of reactive oxygen species during iron detoxification. This cluster provides an example of gain of function during evolution in a protein involved in iron homeostasis, as our results suggests that Cluster 3 was present in the endosymbiont ancestor of mitochondria and was conserved in eukaryotic frataxins.
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| http://dx.doi.org/10.3390/ijms232113151 | DOI Listing |
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Article Synopsis
- - Friedreich's ataxia (FA) is an autosomal recessive disorder linked to low frataxin levels in mitochondria, primarily causing heart issues (cardiomyopathy).
- - In a study using a specific mouse model (Fxn-cKO), researchers found that male mice with FA showed worse heart problems and lower survival rates compared to females, likely due to reduced testosterone levels.
- - The decline in testosterone was tied to changes in mitochondrial proteins and a more significant decrease in key cardiac calcium signaling proteins in male mice, highlighting the importance of sex differences in the disease's impact.
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