SKYSONA is the first and only gene therapy approved in the EU to treat early CALD
CALD is a rare neurodegenerative disease that can lead to progressive, irreversible loss of neurologic function, and death
One-time treatment with SKYSONA has been shown to have a durable effect in improving survival outcomes and preserving neurologic function across pivotal and long-term studies, with the longest follow-up of nearly seven years (82.7 months)
SKYSONA uses the patient’s own blood stem cells and there have been no reports of graft-versus-host disease (GVHD), graft failure or rejection, or transplant-related mortality (TRM) (n=51) across clinical studies to-date
Adrenoleukodystrophy (ALD) is a rare, X-linked metabolic disorder that primarily affects males; worldwide, an estimated one in 21,000 male newborns are diagnosed with ALD. The disorder is caused by mutations in the ABCD1 gene that affect the production of adrenoleukodystrophy protein (ALDP) and subsequently causes toxic accumulation of very long-chain fatty acids (VLCFAs), primarily in the adrenal gland and white matter of the brain and spinal cord. Approximately 40% of boys with ALD will develop CALD, the most severe form of ALD. CALD is a progressive and irreversible neurodegenerative disease that involves the breakdown of myelin, the protective sheath that nerve cells need to function effectively, especially for thinking and muscle control. The onset of symptoms of CALD typically occurs in childhood (median age 7).1 Early diagnosis of CALD is essential as the outcome of treatment varies with the clinical stage of the disease. Therefore, treatment must be administered before the disease progresses too far.
“SKYSONA is the first and only one-time gene therapy approved in the EU for patients with CALD, a devastating neurodegenerative disease, and we are immensely grateful to all who have brought us to this milestone, from the patients and their loved ones, to all study investigators, regulators, the ALD community and of course, the extended bluebird family,” said
SKYSONA is a one-time gene therapy custom-designed to treat the underlying cause of the neurologic condition CALD. SKYSONA uses ex vivo transduction with the Lenti-D lentiviral vector (LVV) to add functional copies of the ABCD1 gene into a patient’s own HSCs. The addition of the functional ABCD1 gene allows patients to produce the ALD protein (ALDP), which is thought to facilitate the breakdown of VLCFAs. The expression of ALDP and effect of SKYSONA is expected to be life-long. The goal of treatment with SKYSONA is to stop the progression of CALD and, consequently, preserve as much neurological function as possible, including the preservation of motor function and communication ability. Importantly, with SKYSONA, there is no need for donor HSCs from another person.
Previously, the only therapeutic option available to CALD patients was transplantation of stem cells from a donor, called allogeneic hematopoietic stem cell transplant (allo-HSCT), which is associated with severe potential complications and mortality that increase in patients without a matched sibling donor (MSD). It is estimated that more than 80% of patients diagnosed with CALD do not have an MSD.
SKYSONA was reviewed as part of the European Medicines Agency’s Priority Medicines scheme (PRIME) and was previously granted Orphan Medicinal Product status. The marketing authorization is valid in all 27 member states of the EU, as well as
Data Supporting Clinical Profile of SKYSONA From Clinical Development Program
ALD-102 and ALD-104
The marketing authorization of SKYSONA is supported by efficacy and safety data from the Phase 2/3 Starbeam study (ALD-102). Additionally, the Phase 3 ALD-104 study (N=19; as of
The primary efficacy endpoint of the pivotal ALD-102 study was Major Functional Disabilities (MFD)-free survival, measuring the proportion of patients who did not have any of the six MFDs, were alive, did not receive a second allo-HSCT or rescue cell administration, and had not withdrawn or been lost to follow-up at Month 24. In ALD-102, 32 patients have been treated with SKYSONA and, as of
In ALD-102, 26 of 28 evaluable patients maintained a neurologic function score (NFS) less than or equal to 1 through Month 24, and 24 of those patients had no change in their NFS, which showed maintenance of neurological function in the majority of patients. All patients who completed ALD-102 enrolled for long-term follow-up in the LTF-304 study.
SKYSONA showed a durable effect on MFD-free survival, with most patients (26/27, 96.3%) that enrolled in LTF-304 remaining alive and maintaining their MFD-free status through their last follow-up on study. The median duration of follow-up was 3.2 years (38.6 months; min.: 13.4; max.: 82.7) and 14 patients reached at least their Year 5 follow-up visit. One patient enrolled in LTF-304 but refused further follow-up later.
The treatment regimen, comprising stem cell mobilization and collection, conditioning, and SKYSONA infusion, had a safety/tolerability profile primarily reflective of the known effects of mobilization/apheresis and conditioning.
Adverse reactions attributed to SKYSONA observed in clinical trials include cystitis viral, pancytopenia, and vomiting.
There have been no reports of graft-versus-host-disease (GVHD), graft failure or rejection, transplant-related mortality (TRM), or replication competent lentivirus in the 51 patients treated with SKYSONA in clinical studies (ALD-102/LTF-304 and ALD-104). Clonal expansion resulting in clonal predominance has been detected in some patients treated with SKYSONA. While there have been no reports of lentiviral vector-mediated oncogenesis, including myelodysplasia, leukemia, or lymphoma, associated with SKYSONA, there is a potential risk of malignancy after treatment with SKYSONA.
For further details, please see the Summary of Product Characteristics (SmPC).
The efficacy and safety of allo-HSCT in patients with CALD was observed in a contemporaneous comparator study ALD-103 (N=59), which assessed safety and efficacy outcomes of this therapeutic option in boys 17 years of age or younger with CALD. Of the 59 patients, 27 patients matched the ALD-102 population based on disease characteristics. This population was further divided into those who received an allo-HSCT from an MSD (N=10; ALD-103 Efficacy Population with MSD) and those who received an allo-HSCT from an alternative donor source, i.e., not an MSD (N=17; ALD-103 Efficacy Population without MSD). Proportion of MFD-free survival at Month 24 was analyzed in ALD-102 (90% [95% CI: 73.5, 97.9]; 27/30 evaluable patients) and compared to 17 patients treated with allo-HSCT without an MSD in ALD-103 (66.7% [95% CI: 29.9, 92.5]; 6/9 evaluable patients).
The proportion of evaluable patients who experienced either acute (≥ Grade II) or chronic GVHD in ALD-102 vs. ALD-103 by Month 24, was 0 vs. 52%. No patients experienced TRM, a secondary endpoint, at 100 days or 365 days after transplant in ALD-102 and ALD-104. In contrast, 2/59 (3.4%) patients experienced TRM at 100 days and 8/59 (13.6%) patients experienced TRM at 365 days after transplant in the ALD-103 Safety Population.
About SKYSONA (elivaldogene autotemcel, formerly Lenti-D™ gene therapy)
In the EU, SKYSONA is approved for the treatment of early CALD in patients less than 18 years of age with an ABCD1 genetic mutation, and for whom an HLA-matched sibling HSC donor is not available. A marketing authorization application for SKYSONA is currently under review by the Medicines and Healthcare products Regulatory Agency (MHRA) in
The Phase 3 ALD-104 study, designed to assess the efficacy and safety of SKYSONA after myeloablative conditioning using busulfan and fludarabine in patients with CALD, is approaching enrollment completion; enrollment in
The Phase 2/3 Starbeam study (ALD-102) is complete. For more information about our studies, visit: www.bluebirdbio.com/our-science/clinical-trials or clinicaltrials.gov.
Additionally, bluebird bio is conducting a long-term safety and efficacy follow-up study (LTF-304) for patients who have been treated with SKYSONA for CALD and completed two years of follow-up in bluebird bio-sponsored studies. Patients treated with SKYSONA in
About CALD Early Diagnosis
Early diagnosis of CALD is essential, as the outcome of treatment varies with the clinical stage of the disease. Therefore, treatment must be administered before the disease progresses too far. Newborn screening is a critical enabler of early diagnosis for ALD and provides access to a window for the timely commencement of available therapies. Once a patient has been diagnosed with ALD, regular MRI scans are critical to detect white matter changes indicative of progression to CALD as, currently, there is no way to predict who with ALD will develop CALD. In the absence of newborn screening for ALD, early detection of ALD symptoms is crucial to allow for timely treatment.
Unfortunately, in most EU countries, there is no newborn screening for ALD, and therefore it is difficult to detect patients at risk of developing CALD.
About bluebird bio, Inc.
bluebird bio is pioneering gene therapy with purpose. From our
bluebird bio is a human company powered by human stories. We’re putting our care and expertise to work across a spectrum of disorders: cerebral adrenoleukodystrophy, sickle cell disease, β-thalassemia, and multiple myeloma, using gene and cell therapy technologies including gene addition, and (megaTAL-enabled) gene editing.
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1 Mallack et al. MRI surveillance of boys with X-linked adrenoleukodystrophy identified by newborn screening: Meta-analysis and consensus guidelines. J Inherit Metab Disease 2021. 44(3):728-39.
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Source: bluebird bio, Inc.