The mutation results in multiple guanine-adenine-adenine repeats in FXN, or, in a few cases, a point mutation or deletion in 1 allele of FXN, with multiple GAA repeats in the other allele. A hallmark of FA is impairment of cellular antioxidative defense mechanisms – a major cause of disease progression.
Dr. David Lynch
The GAA repeat leads to methylation of the promoter region of FXN. This results in production and accumulation in cells of an abnormal, ineffective form of frataxin and oxidative damage to cells, particularly those that require larger amounts of energy, such as cells in the brain, heart, and pancreas.
“You would expect that the cells would be revving up all of their endogenous defenses,” David Lynch, MD, PhD, director of the Friedreich ataxia program at Children’s Hospital of Philadelphia, explained in an interview. “These oxidative damage responses are controlled by a DNA response element called the antioxidant response element, and it’s activated by the transcription factor Nrf2 [nuclear factor erythroid 2–related factor 2].”
Treatment options have been limited
Omaveloxolone. Dr. Lynch is principal investigator for the MOXIe trial of the safety, pharmacodynamics, and efficacy of omaveloxolone (marketed as Skyclarys [Reata Pharmaceuticals]),5 which received FDA orphan drug, fast track, priority review, and rare pediatric disease designations for the treatment of FA and, in February 2023, formal FDA approval.6 Development of this drug, which activates Nrf2 and induces antioxidant target genes, arose from basic science investigation into mechanisms by which cells respond to stresses.
“Omaveloxolone works on the Nrf2 pathway, which is, paradoxically, deficient in FA,” Dr. Lynch said. “This pathway should be active all the time. You would expect that, in cells from Friedreich ataxia in a person or an animal model of the disease, you’d see that Nrf2 would be very active but, in fact, what you find is the opposite,” Dr. Lynch explained. “It’s relatively inefficient, it’s localized in the cell, and the antioxidant response element genes – the things we all use to protect ourselves from mitochondrial damage – are all relatively turned off.”
In the first phase of MOXIe, 103 patients with FA were randomly assigned to receive either omaveloxolone, 15 mg orally (51 patients), or placebo (52 patients) for 48 weeks.
The primary endpoint was change in the modified Friedreich’s Ataxia Rating Scale (mFARS) score at 48 weeks. The scale is a clinically validated neurological instrument that evaluates upper- and lower-limb coordination, upright stability, and bulbar function.
Patients assigned to placebo had worsening of function at 48 weeks (mean increase in mFARS score, 0.85). In contrast, patients assigned to omaveloxolone had a mean decrease in the mFARS score of –1.56, indicating improvement. The between-group difference of –2.41 points was statistically significant in favor of omaveloxolone (P = .038).
In a 3-year, post hoc, propensity-matched analysis, patients assigned to omaveloxolone had lower mFARS scores than a matched set of untreated patients in a study of the natural history of FA.7Dimethyl fumarate (marketed as Tecfidera [Biogen]), approved in the United States and other countries for the treatment of patients with relapsing forms of multiple sclerosis, also has Nrf2 as a therapeutic target, although its precise mechanism of action is unclear. Clinical trials of this agent for the treatment of FA are under consideration in Europe, Dr. Lynch said.
Apart from these agents, treatment of patients with FA largely centers on management of metabolic and cardiac complications; physical and occupational therapy; devices such as orthopedic shoes, canes, and wheelchairs; and, when indicated, surgery to correct skeletal problems or for implantation of a cardiac-assist device.