New three-month assessment in first patient at dose level 2 demonstrates robust microdystrophin expression
Patient aged 12 years at dosing had expression level at 75.7% of control
Early evidence of strength and motor function improvement observed
On track to initiate pivotal trial in second half of 2024
Webcast this morning, Tuesday, March 5, 8:30 a.m. ET, with principal investigator
ROCKVILLE, Md., March 5, 2024 /PRNewswire/ — REGENXBIO Inc. (Nasdaq: RGNX) today reported additional interim safety and efficacy data in the Phase I/II AFFINITY DUCHENNE® trial of RGX-202 in patients with Duchenne muscular dystrophy (Duchenne) ages 4 to11 years old, including RGX-202 microdystrophin expression from dose level 2 and video of trial clinic assessments demonstrating initial evidence of strength and functional improvement.
“RGX-202 at dose level 2 is demonstrating significantly increased microdystrophin expression in a 12-year-old patient,” said Kenneth T. Mills, President and CEO, REGENXBIO. “We know there is an insufficient level of data available to the community for boys older than 7 years, and we are committed to being transparent with our data for a Duchenne community in need of new treatment options that can meaningfully impact disease. In addition, we are encouraged by the safety data at both dose levels and initial caregiver observations of strength and motor function improvement in boys treated with RGX-202. We look forward to following these patients to establish durability and greater separation from baseline, which we hope will further establish RGX-202 as an important option among treatments in development.”
“There is a need for treatment options for boys with Duchenne that have the potential to alter the disease trajectory,” said Aravindhan Veerapandiyan, M.D., Arkansas Children’s Hospital. “I am very pleased with the new microdystrophin expression data from RGX-202 dose level 2. It is encouraging to see that patients are safely progressing through their trial protocol strength and motor function assessments with early observations of improvement, including in older boys.”
Safety UpdateAs of February 28, 2024, RGX-202 has been well tolerated with no drug-related serious adverse events in five patients, aged 4.4 to 12.1 at dose level 1 (1×1014 genome copies (GC)/kg body weight) and dose level 2 (2×1014 GC/kg body weight). Time of post-administration follow up ranges from approximately seven weeks to over eleven months. All patients who reached three-month follow-up have completed the immunosuppression regimen per study protocol.
Biomarker Data and Recorded Strength and Functional ObservationsIn new data from the first patient, aged 12.1 years, who received RGX-202 at dose level 2, RGX-202 microdystrophin expression was measured to be 75.7% compared to control at three months. A reduction from baseline in serum creatinine kinase (CK) levels of 77% was observed at ten weeks.
All four patients, across both dose levels, who completed three-month trial assessments indicate encouraging increases in expression of RGX-202 microdystrophin and reduction from baseline in serum CK levels, supporting evidence of clinical improvement.
RGX-202 microdystrophin levels were measured using an automated and precise western blot method (Jess), and comparable results were confirmed with a proprietary liquid chromatography-mass spectrometry (LC-MS) method. Elevated CK levels are associated with muscle injury and are uniformly elevated in patients with Duchenne. Among patients aged 8 to 11 years old at screening, RGX-202 microdsytrophin expression levels (change from baseline) at three months following RGX-202 administration was higher in dose level 2. The patient data is presented below.
Patient |
Age at Dosing |
Weight at |
Western blot (Jess method), |
CK Levels, |
|
Dose level 1 |
1 |
4.4 |
17.8 |
38.8 |
-43 |
2 |
10.5 |
28.3 |
11.1 |
-44 |
|
3 |
6.6 |
26.8 |
83.4 |
-93 |
|
Dose level 2 |
4 |
12.1 |
24.3 |
75.7 |
-77 |
Dose Comparison of RGX-202 Microdystrophin Expression Levels in Older Boys
Dose level 1 |
Dose level 2 |
|
Ages > 8 years |
11.1 |
75.7 |
In addition, new recordings of the AFFINITY DUCHENNE trial clinic assessments and home videos shared with trial investigators by caregivers illustrate patients treated with RGX-202 are demonstrating initial evidence of strength and functional improvement.
“Several of the items in the clinic recordings are timed tasks and they are also measured on the NSAA. We plan to present strength and functional assessment data for both dose levels from the trial later this year, but today this is a glimpse of how these boys are gaining functional skills since dosing,” said Dr. Veerapandiyan, “The montage of home videos provides some insight into a family’s experience with RGX-202. Being able to do these activities, which can be quite difficult for boys with Duchenne, is informal, but a set of important observations of their experience.”
Clinical Program UpdatesREGENXBIO expects to make a pivotal dose determination in mid-2024. The Company also expects to share strength and functional assessment data for both dose levels and the initiation of a pivotal trial in the second half of 2024. The Company plans to use RGX-202 microdystrophin expression as a surrogate endpoint to support a Biologics License Application (BLA) filing using the accelerated approval pathway.
Conference Call DetailsREGENXBIO will host a webcast Tuesday, March 5 at 8:30 a.m. ET. The live webcast can be accessed in the Investors section of REGENXBIO’s website at www.regenxbio.com. An archived replay of the webcast will be available for approximately 30 days following the presentation.
AFFINITY DUCHENNE Trial DesignThe Phase I/II AFFINITY DUCHENNE trial is a multicenter, open-label dose escalation and dose expansion clinical study to evaluate the safety, tolerability and clinical efficacy of a one-time intravenous (IV) dose of RGX-202 in patients with Duchenne. In the dose evaluation phase of the trial, four ambulatory, pediatric patients (ages 4 to 11 years old) are expected to enroll in two cohorts with doses of 1×1014 GC/kg body weight (n=2) and 2×1014 GC/kg body weight (n=2). After an independent safety data review for each cohort, a dose expansion phase of the trial may allow for additional patients to be enrolled.
The trial design was informed by the Duchenne community and engagement with key opinion leaders, including a comprehensive, short-term, prophylactic immunosuppression regimen to proactively mitigate potential complement-mediated immunologic responses, and inclusion criteria based on dystrophin gene mutation status, including DMD gene mutations in exons 18 and above. Trial endpoints include safety, immunogenicity assessments, pharmacodynamic and pharmacokinetic measures of RGX-202, including microdystrophin protein levels in muscle, and strength and functional assessments, including the North Star Ambulatory Assessment (NSAA) and timed function tests.
About RGX-202RGX-202 has differentiated and important biology most similar to naturally occurring dystrophin that protects from the muscle degradation associated with Duchenne. RGX-202 is designed to deliver a transgene for a novel microdystrophin that includes the functional elements of the C-Terminal (CT) domain found in naturally occurring dystrophin. Presence of the CT domain has been shown in preclinical studies to recruit several key proteins to the muscle cell membrane, leading to improved muscle resistance to contraction-induced muscle damage in dystrophic mice. Additional design features, including codon optimization and reduction of CpG content, may potentially improve gene expression, increase translational efficiency and reduce immunogenicity. RGX-202 is designed to support the delivery and targeted expression of genes throughout skeletal and heart muscle using the NAV AAV8 vector, a vector used in numerous clinical trials, and a well-characterized muscle-specific promoter (Spc5-12).
About Duchenne Muscular DystrophyDuchenne is a severe, progressive, degenerative muscle disease, affecting 1 in 3,500 to 5,000 boys born each year worldwide. Duchenne is caused by mutations in the Duchenne gene which encodes for dystrophin, a protein involved in muscle cell structure and signaling pathways. Without dystrophin, muscles throughout the body degenerate and become weak, eventually leading to loss of movement and independence, required support for breathing, cardiomyopathy and premature death.
ABOUT REGENXBIO Inc.REGENXBIO is a leading clinical-stage biotechnology company seeking to improve lives through the curative potential of gene therapy. Since its founding in 2009, REGENXBIO has pioneered the development of AAV Therapeutics, an innovative class of gene therapy medicines. REGENXBIO is advancing a pipeline of AAV Therapeutics for retinal and rare diseases, including ABBV-RGX-314 for the treatment of wet AMD and diabetic retinopathy, being developed in collaboration with AbbVie, RGX-202 for the treatment of Duchenne and RGX-121 for the treatment of MPS II. Thousands of patients have been treated with REGENXBIO’s AAV Therapeutic platform, including Novartis’ ZOLGENSMA for children with spinal muscular atrophy. Designed to be one-time treatments, AAV Therapeutics have the potential to change the way healthcare is delivered for millions of people. For more information, please visit www.regenxbio.com.
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Zolgensma® is a registered trademark of Novartis Gene Therapies. All other trademarks referenced herein are registered trademarks of REGENXBIO.
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Corporate Communications
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Investors:
Chris Brinzey
ICR Westwicke
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SOURCE REGENXBIO Inc.