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Disease
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Target Concepts:
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Query: UMLS:C0016719 (
Friedreich's ataxia
)
2,098
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Much has been learned about the cellular pathology of
Friedreich's ataxia
, a recessive neurodegenerative disease resulting from insufficient expression of the mitochondrial protein frataxin. However, the biochemical function of frataxin has remained obscure, hampering attempts at therapeutic intervention. To predict functional interactions of frataxin with other proteins we investigated whether its gene specifically co-occurs with any other genes in sequenced genomes. In 56 available genomes we identified two genes with identical phylogenetic distributions to the frataxin/cyaY gene: hscA and hscB/
JAC1
. These genes have not only emerged in the same evolutionary lineage as the frataxin gene, they have also been lost at least twice with it, and they have been horizontally transferred with it in the evolution of the mitochondria. The proteins encoded by hscA and hscB, the chaperone HSP66 and the co-chaperone HSP20, have been shown to be required for the synthesis of 2Fe-2S clusters on ferredoxin in proteobacteria.
JAC1
, an ortholog of hscB, and SSQ1, a paralog of hscA, have been shown to be required for iron-sulfur cluster assembly in mitochondria of Saccharomyces cerevisiae. Combining data on the co-occurrence of genes in genomes with experimental and predicted cellular localization data of their proteins supports the hypothesis that frataxin is directly involved in iron-sulfur cluster protein assembly. They indicate that frataxin is specifically involved in the same sub-process as HSP20/Jac1p.
...
PMID:The phylogenetic distribution of frataxin indicates a role in iron-sulfur cluster protein assembly. 1168 93
Friedreich's ataxia
is a neurodegenerative disorder caused by mutations in the frataxin gene that produces a predominantly mitochondrial protein whose primary function appears to be mitochondrial iron-sulfur cluster (ISC) biosynthesis. Previously we demonstrated that frataxin interacts with multiple components of the mammalian ISC assembly machinery. Here we demonstrate that frataxin interacts with the mammalian mitochondrial chaperone
HSC20
. We show that this interaction is iron-dependent. We also show that like frataxin,
HSC20
interacts with multiple proteins involved in ISC biogenesis including the ISCU/Nfs1 ISC biogenesis complex and the GRP75 ISC chaperone. Furthermore, knockdown of
HSC20
caused functional defects in activity of mitochondrial ISC-containing enzymes and also defects in ISC protein expression. Alterations up or down of frataxin expression caused compensatory changes in
HSC20
expression inversely, as expected of two cooperating proteins operating in the same pathway and suggesting a potential therapeutic strategy for the disease. Knockdown of
HSC20
altered cytosolic and mitochondrial iron pools and increased the expression of transferrin receptor 1 and iron regulatory protein 2 consistent with decreased iron bioavailability. These results indicate that
HSC20
interacts with frataxin structurally and functionally and is important for ISC biogenesis and iron homeostasis in mammals. Furthermore, they suggest that
HSC20
may act late in the ISC pathway as a chaperone in ISC delivery to apoproteins and that
HSC20
should be included in multi-protein complex studies of mammalian ISC biogenesis.
...
PMID:HSC20 interacts with frataxin and is involved in iron-sulfur cluster biogenesis and iron homeostasis. 2217 Oct 70
