“There have been so many breakthroughs recently on the side of genetically targeted treatment [for muscular dystrophy] that supports muscle better,” said John F. Brandsema, MD, a child neurologist and section head at Children’s Hospital of Philadelphia, in an interview with Neurology Reviews 2023 Rare Neurological Disease Special Report. “We’re starting to see clinical response to some things that have been in trials – after decades of banging our heads on the wall trying new therapies, only to see them fail. I think it’s about reframing Duchenne muscular dystrophy [DMD] and facioscapulohumeral muscular dystrophy [FSHD] as treatable by target therapy because previously, they were treated with supportive care.”
DMD: Current and emerging therapies
Dr. John F. Brandsema
DMD is caused by a mutation in the dystrophin gene on the X chromosome that inhibits production of dystrophin, a protein that shields muscles from injury during contraction. Dystrophin deficiency prevents muscle recovery, resulting in muscle-cell death and, ultimately, loss of function due to muscle degeneration.
FDA-approved exon-skipping therapies. Treatment modalities for what has historically been an incurable, lifespan-shortening disease involved supportive care that addresses symptoms, not the underlying cause. Consequently, many patients with DMD live only into their 20s and 30s. The tide began to turn in 2016, however, when the U.S. Food and Drug Administration granted accelerated approval for eteplirsen, an exon 51–skipping treatment that was the first RNA-based therapy for DMD to target the underlying cause. Additional exon-skipping therapies followed, including casimersen, which skips exon 45, and golodirsen and viltolarsen, which skip exon 53.
AOC 1044: Novel exon-skipping. In April 2023, the FDA granted orphan-drug designation to the experimental drug antibody oligonucleotide conjugate (AOC) 1044 that skips exon 44. A small interfering RNA (siRNA), AOC 1044 works in patients who have a mutation amenable to exon 44 skipping (a disease type known as DMD44) by delivering phosphorodiamidate morpholino to skeletal muscle and heart tissue that skips exon 44. The process allows for dystrophin production, thereby preventing degradation of muscle tissue.
The orphan drug status of AOC 1044 made it available to the population of patients enrolled in the EXPLORE44 Phase 1/2 trial. However, studies demonstrating effectiveness of the drug – with the hope of, ultimately, providing widespread access to AOC 1044 – are still underway. In one of those studies, investigators expect to enroll approximately 40 healthy volunteers and 24 DMD44 patients 7-27 years of age.3 The study will evaluate the effects of exon skipping and dystrophin protein levels in participants who have DMD44.
Delandistrogene moxeparvovec. Oct. 27, 2021, marked the inception of the phase 3 Multinational, Randomized, Double-Blind, Placebo-Controlled Systemic Gene Delivery Study to Evaluate the Safety and Efficacy of SRP-9001 in Subjects With Duchenne Muscular Dystrophy (EMBARK). The trial is evaluating the safety and efficacy of the gene-therapy agent delandistrogene moxeparvovec in ambulatory boys who were 4 to less than 8 years of age at randomization. The 126 boys enrolled in the trial met the criteria of (1) a diagnosis of DMD confirmed by documented clinical findings and previous genetic testing and (2) a pathogenic frameshift mutation stop codon located between exons 18 and 79 (inclusive), except for a mutation fully contained within exon 45.
Additional inclusion criteria were (1) the ability to cooperate with motor-assessment testing and (2) receiving a steady daily dose of oral corticosteroid for 12 weeks or longer prior to screening, and (3) the expectation of maintaining the study dosage throughout screening. Boys who had previously received gene therapy, investigational medication, or any treatment that could have amplified dystrophin expression within the time limit specified by the protocol were ineligible to participate. Boys were excluded from the study if they presented with any other illness, medical condition, or need for chronic drug treatment.
Exon-skipping therapies in trials. Various biotech and pharmaceutical companies have initiated clinical trials to explore the potential of additional exon-skipping therapies for the DMD population:
ENTR-601-44 is another exon 44–skipping therapy in the pipeline.
On Aug. 22, 2023, the FDA approved delandistrogene moxeparvovec-rokl, a recombinant gene therapy utilizing an adenovirus vector. The product is indicated for ambulatory patients with DMD 4-5 years of age who have a confirmed mutation of the dystrophin gene.
Dyne Therapeutics is actively recruiting participants to investigate Dyne 251, its exon 51–skipping therapy.
Trials are in the works by BioMarin Pharmaceutical for its next-generation peptide-conjugated phosphorodiamidate morpholino oligomers (PPMO) for skipping exon 51.
Despite the prospects of such therapy, therapeutic targeting of exon 44 addresses only patients with DMD44, who account for approximately 10% of the DMD population. Disease involving the most prevalent site of a dystrophin gene mutation, exon 51, affects 13% of the DMD population. This leaves the majority of patients with DMD without gene therapy. Yet Dr. Brandsema is optimistic nevertheless.
“We were just failing over and over again with DMD treatment, but there is some hope now,” Dr. Brandsema said. “Also, FSHD is right on the cusp of having new therapies approaching.”