The alteration of the C‐terminal region of human frataxin distorts its structural dynamics and function

Faraj, Santiago Enrique; Román, Ernesto A.; Arán, Martı́n; Gallo, Mariana; Santos, Javier

doi:10.1111/febs.12869

Cited by 24 publications

(59 citation statements)

References 60 publications

(120 reference statements)

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“…The mature protein consists of amino acids 81–210 [9]. The structure is characterized by an α/β fold followed by the C-terminal region (CTR) with a nonperiodic structure that packs against the protein core [53]. Its impact on cellular function and survival is impressively reflected by early embryonic lethality in FXN knock-out mice [54].…”

Section: Frataxin Functionmentioning

confidence: 99%

Friedreich Ataxia: current status and future prospects

2017

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Friedreich ataxia (FA) represents the most frequent type of inherited ataxia. Most patients carry homozygous GAA expansions in the first intron of the frataxin gene on chromosome 9. Due to epigenetic alterations, frataxin expression is significantly reduced. Frataxin is a mitochondrial protein. Its deficiency leads to mitochondrial iron overload, defective energy supply and generation of reactive oxygen species. This review gives an overview over clinical and genetic aspects of FA and discusses current concepts of frataxin biogenesis and function as well as new therapeutic strategies.

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Section: Frataxin Functionmentioning

confidence: 99%

Friedreich Ataxia: current status and future prospects

2017

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“…In particular, we have focused on mutations located in the CTR. We have observed that deletion of the CTR produces a complete alteration of hFXN internal dynamics and yields a critical destabilization of the protein (Δ G ° NU = 1.0 kcal mol − 1 for the truncated variant 19 20 ), suggesting why the closely related FRDA-associated mutant hFXN81-193 causes the disease 24 . In the case of hFXN90-195, ∼10% of the molecules are in the unfolded state at room temperature 20 .…”

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confidence: 97%

“…1A ). hFXN is a very stable protein (∼9 kcal/mol − 1 19 20 ). Native state dynamics of hFXN has been deeply studied by NMR 19 21 in a broad range of timescales and also by molecular dynamics simulations (MDs 19 20 ).…”

mentioning

confidence: 99%

“…hFXN is a very stable protein (∼9 kcal/mol − 1 19 20 ). Native state dynamics of hFXN has been deeply studied by NMR 19 21 in a broad range of timescales and also by molecular dynamics simulations (MDs 19 20 ). A number of FRDA-associated mutants were studied and characterized from the point of view of their effects on thermodynamic stability, internal dynamics and biological activity 3 16 21 22 .…”

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confidence: 99%

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Human Frataxin Folds Via an Intermediate State. Role of the C-Terminal Region

Faraj

González-Lebrero

Román

et al. 2016

Sci Rep

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The aim of this study is to investigate the folding reaction of human frataxin, whose deficiency causes the neurodegenerative disease Friedreich’s Ataxia (FRDA). The characterization of different conformational states would provide knowledge about how frataxin can be stabilized without altering its functionality. Wild-type human frataxin and a set of mutants, including two highly destabilized FRDA-associated variants were studied by urea-induced folding/unfolding in a rapid mixing device and followed by circular dichroism. The analysis clearly indicates the existence of an intermediate state (I) in the folding route with significant secondary structure content but relatively low compactness, compared with the native ensemble. However, at high NaCl concentrations I-state gains substantial compaction, and the unfolding barrier is strongly affected, revealing the importance of electrostatics in the folding mechanism. The role of the C-terminal region (CTR), the key determinant of frataxin stability, was also studied. Simulations consistently with experiments revealed that this stretch is essentially unstructured, in the most compact transition state ensemble (TSE2). The complete truncation of the CTR drastically destabilizes the native state without altering TSE2. Results presented here shed light on the folding mechanism of frataxin, opening the possibility of mutating it to generate hyperstable variants without altering their folding kinetics.

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“…Фратаксин представляет собой белок (23 кДа), состоящий из 81-210 аминокислотных остатков, локализованный в митохондриальном матриксе и связанный с внутренней мембраной митохондрий [4]. Фратаксин играет важную роль в обмене железа и формировании железосерных кластеров, защите клетки от окислительного стресса, регуляции энергетического обмена, кальциевого и нейротрансмиттерного гомеостаза, поддержании мембранного потенциала, участвует в аксональном транспорте и фолдинге нейрональных белков.…”

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Epigenetic regulation of clinical manifestations of Friedreich's disease

Nuzhny

Abramycheva

Николаева

et al. 2020

Z. nevrol. psikhiatr. im. S.S. Korsakova

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Резюме Цель исследования. Изучение профиля метилирования гена FXN и его влияния на формирование клинической картины болезни Фридрейха (БФ). Материал и методы. У 17 пациентов с БФ была проанализирована промоторная область, а также область 1-го интрона гена FXN до GAA-экспансии (UP-GAA) и после GAA-экспансии (DOWN-GAA), всего было исследовано суммарно 45 СрGсайтов. Результаты. При изучении геноэпигенетических взаимосвязей были выявлены корреляции между степенью метилирования ряда CpG-сайтов в UP-GAA и DOWN-GAA и количеством GAA-повторов в обоих экспандированных аллелях FXN у пациентов с БФ. При клинико-эпигенетическом анализе выявлено более раннее начало и более тяжелое течение БФ при гиперметилировании нескольких CpG-сайтов в UP-GAA-области гена. Также выявлена связь метилирования и наличия экстраневральных проявлений БФ: наличие кардиомиопатии было более вероятно при гипометилировании CpG-сайта промоторной области, а нарушения углеводного обмена чаще встречались при гипометилировании CpG-сайтов в DOWN-GAA области. Заключение. Полученные нами данные свидетельствуют о значительном вкладе эпигенетических модификаций гена FXN в формирование клинической картины БФ.

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The alteration of the C‐terminal region of human frataxin distorts its structural dynamics and function

Cited by 24 publications

References 60 publications

Friedreich Ataxia: current status and future prospects

Friedreich Ataxia: current status and future prospects

Human Frataxin Folds Via an Intermediate State. Role of the C-Terminal Region

Epigenetic regulation of clinical manifestations of Friedreich's disease

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