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Literature DB >> 25034024

Therapeutic approaches for the treatment of Friedreich's ataxia.

Cassandra J Strawser¹, Kimberly A Schadt, David R Lynch.

Abstract

Friedreich ataxia (FRDA) is an inherited, progressive, neurodegenerative disease for which there is presently no cure or effective therapeutic intervention. While physiologically complex, FRDA is caused by deficits in production and expression of frataxin (FXN), a mitochondrial protein important for regulation of iron-sulfur cluster containing enzymes in the cell. Depletion of FXN is associated with dysfunction of ATP synthesis, mitochondrial iron accumulation, potentially an increase in oxidative stress, and cellular dysfunction. Therapeutic development presently focuses on improving mitochondrial function and increasing FXN expression. Gene therapy, a field which has undergone significant advances in recent years, may offer a promising treatment for FRDA in the future. This collection of approaches provides many possible opportunities for treating this multisystem disorder.

Entities: Chemical Disease Gene

Keywords: EPI-743; EPO; Friedreich ataxia; coenzyme Q10; deferiprone; gene therapy; idebenone; mitochondrial dysfunction; tat-frataxin

Mesh：

Substances：
Antioxidants

Year: 2014 PMID： 25034024 DOI： 10.1586/14737175.2014.939173

Source DB: PubMed Journal: Expert Rev Neurother ISSN： 1473-7175 Impact factor: 4.618

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Cited

22 in total

1. Stable isotopes and LC-MS for monitoring metabolic disturbances in Friedreich's ataxia platelets.

Authors: Andrew J Worth; Sankha S Basu; Eric C Deutsch; Wei-Ting Hwang; Nathaniel W Snyder; David R Lynch; Ian A Blair
Journal: Bioanalysis Date: 2015 Impact factor: 2.681

2. Expanded GAA repeats impede transcription elongation through the FXN gene and induce transcriptional silencing that is restricted to the FXN locus.

Authors: Yanjie Li; Yue Lu; Urszula Polak; Kevin Lin; Jianjun Shen; Jennifer Farmer; Lauren Seyer; Angela D Bhalla; Natalia Rozwadowska; David R Lynch; Jill Sergesketter Butler; Marek Napierala
Journal: Hum Mol Genet Date: 2015-09-23 Impact factor: 6.150

10. Complex I protein NDUFS2 is vital for growth, ROS generation, membrane integrity, apoptosis, and mitochondrial energetics.

Authors: Aloka B Bandara; Joshua C Drake; Carissa C James; James W Smyth; David A Brown
Journal: Mitochondrion Date: 2021-03-18 Impact factor: 4.160

Therapeutic approaches for the treatment of Friedreich's ataxia.

1. Stable isotopes and LC-MS for monitoring metabolic disturbances in Friedreich's ataxia platelets.

2. Expanded GAA repeats impede transcription elongation through the FXN gene and induce transcriptional silencing that is restricted to the FXN locus.

Review 3. Milestones in Friedreich ataxia: more than a century and still learning.

4. Frataxin Restoration in the Nervous System: Possibilities for Gene Therapy.

5. Long-term treatment with thiamine as possible medical therapy for Friedreich ataxia.

6. Inducible and reversible phenotypes in a novel mouse model of Friedreich's Ataxia.

7. Translating HDAC inhibitors in Friedreich's ataxia.

8. Gene Transfer of Brain-derived Neurotrophic Factor (BDNF) Prevents Neurodegeneration Triggered by FXN Deficiency.

9. Amide linked redox-active naphthoquinones for the treatment of mitochondrial dysfunction.

10. Complex I protein NDUFS2 is vital for growth, ROS generation, membrane integrity, apoptosis, and mitochondrial energetics.