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1. Evaluating Genetic Modifiers of Duchenne Muscular Dystrophy Disease Progression Using Modeling and MRI.

Author

Barnard, Alison, Hammers, David, Triplett, William, Kim, Sarah, Forbes, Sean, Willcocks, Rebecca, Daniels, Michael, Senesac, Claudia, Lott, Donovan, Arpan, Ishu, Rooney, William, Wang, Richard, Nelson, Stanley, Sweeney, H, Vandenborne, Krista, and Walter, Glenn

Subjects
Humans, Dystrophin, Muscular Dystrophy, Duchenne, Exons, Magnetic Resonance Imaging, Disease Progression
Abstract

BACKGROUND AND OBJECTIVES: Duchenne muscular dystrophy (DMD) is a progressive muscle degenerative disorder with a well-characterized disease phenotype but considerable interindividual heterogeneity that is not well understood. The aim of this study was to evaluate the effects of dystrophin variations and genetic modifiers of DMD on rate and age of muscle replacement by fat. METHODS: One hundred seventy-five corticosteroid treated participants from the ImagingDMD natural history study underwent repeated magnetic resonance spectroscopy (MRS) of the vastus lateralis (VL) and soleus (SOL) to determine muscle fat fraction (FF). MRS was performed annually in most instances; however, some individuals had additional visits at 3 or 6 monthss intervals. FF changes over time were modeled using nonlinear mixed effects to estimate disease trajectories based on the age that the VL or SOL reached half-maximum change in FF (mu) and the time required for FF change (sigma). Computed mu and sigma values were evaluated for dystrophin variations that have demonstrated the ability to lead to a mild phenotype as well as compared between different genetic polymorphism groups. RESULTS: Participants with dystrophin gene deletions amenable to exon 8 skipping (n = 4) had minimal increases in SOL FF and had an increase in VL mu value by 4.4 years compared with a reference cohort (p = 0.039). Participants with nonsense variations within exons that may produce milder phenotypes (n = 11) also had minimal increases in SOL and VL FFs. No differences in estimated FF trajectories were seen for individuals amenable to exon 44 skipping (n = 10). Modeling of the SPP1, LTBP4, and thrombospondin-1 (THBS1) genetic modifiers did not result in significant differences in muscle FF trajectories between genotype groups (p > 0.05); however, trends were noted for the polymorphisms associated with long-range regulation of LTBP4 and THBS1 that deserve further follow-up. DISCUSSION: The results of this study link the historically mild phenotypes seen in individuals amenable to exon 8 skipping and with certain nonsense variations with alterations in trajectories of lower extremity muscle replacement by fat.

Published
2022

2. How myosin VI traps its off-state, is activated and dimerizes

Author

Canon, Louise, Kikuti, Carlos, Planelles-Herrero, Vicente J., Lin, Tianming, Mayeux, Franck, Sirkia, Helena, Lee, Young il, Heidsieck, Leila, Velikovsky, Léonid, David, Amandine, Liu, Xiaoyan, Moussaoui, Dihia, Forest, Emma, Höök, Peter, Petersen, Karl J., Morgan, Tomos E., Di Cicco, Aurélie, Sirés-Campos, Julia, Derivery, Emmanuel, Lévy, Daniel, Delevoye, Cédric, Sweeney, H. Lee, and Houdusse, Anne

Published
2023
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5. A Randomized, Double-Blind, Placebo-Controlled, Global Phase 3 Study of Edasalonexent in Pediatric Patients with Duchenne Muscular Dystrophy: Results of the PolarisDMD Trial.

Author

Lee Sweeney, H, Finanger, Erika, Neil Knierbein, Erin, Wagner, Kathryn, Mathews, Katherine, Marks, Warren, Statland, Jeffrey, Nance, Jessica, McMillan, Hugh, McCullagh, Gary, Tian, Cuixia, Ryan, Monique, ORourke, Declan, Müller-Felber, Wolfgang, Tulinius, Mar, Burnette, W, Nguyen, Cam-Tu, Vijayakumar, Kayal, Johannsen, Jessika, Phan, Han, Eagle, Michelle, MacDougall, James, Mancini, Maria, Donovan, Joanne, Finkel, Richard, and McDonald, Craig

Subjects
CAT-1004, Duchenne muscular dystrophy, NF-κB, age effects, edasalonexent, Administration, Oral, Arachidonic Acids, Child, Child, Preschool, Double-Blind Method, Humans, Male, Muscular Dystrophy, Duchenne, NF-kappa B, Salicylamides
Abstract

BACKGROUND: Edasalonexent (CAT-1004) is an orally-administered novel small molecule drug designed to inhibit NF-κB and potentially reduce inflammation and fibrosis to improve muscle function and thereby slow disease progression and muscle decline in Duchenne muscular dystrophy (DMD). OBJECTIVE: This international, randomized 2 : 1, placebo-controlled, phase 3 study in patients ≥4 -

Published
2021

6. Functional muscle hypertrophy by increased insulin‐like growth factor 1 does not require dysferlin

Author

Barton, Elisabeth R, Pham, Jennifer, Brisson, Becky K, Park, SooHyun, Smith, Lucas R, Liu, Min, Tian, Zuozhen, Hammers, David W, Vassilakos, Georgios, and Sweeney, H Lee

Subjects
Medical Physiology, Biomedical and Clinical Sciences, Clinical Sciences, Brain Disorders, Intellectual and Developmental Disabilities (IDD), Muscular Dystrophy, Rare Diseases, Musculoskeletal, Animals, Diaphragm, Dysferlin, Insulin-Like Growth Factor I, Mice, Mice, Knockout, Mice, Transgenic, Muscle, Skeletal, Muscular Dystrophies, Organ Size, dysferlin, insulin-like growth factor 1, Miyoshi myopathy, muscle hypertrophy, skeletal muscle function, Medical and Health Sciences, Neurology & Neurosurgery, Biological sciences, Biomedical and clinical sciences
Abstract

IntroductionDysferlin loss-of-function mutations cause muscular dystrophy, accompanied by impaired membrane repair and muscle weakness. Growth promoting strategies including insulin-like growth factor 1 (IGF-1) could provide benefit but may cause strength loss or be ineffective. The objective of this study was to determine whether locally increased IGF-1 promotes functional muscle hypertrophy in dysferlin-null (Dysf-/- ) mice.MethodsMuscle-specific transgenic expression and postnatal viral delivery of Igf1 were used in Dysf-/- and control mice. Increased IGF-1 levels were confirmed by enzyme-linked immunosorbent assay. Testing for skeletal muscle mass and function was performed in male and female mice.ResultsMuscle hypertrophy occurred in response to increased IGF-1 in mice with and without dysferlin. Male mice showed a more robust response compared with females. Increased IGF-1 did not cause loss of force per cross-sectional area in Dysf-/- muscles.DiscussionWe conclude that increased local IGF-1 promotes functional hypertrophy when dysferlin is absent and reestablishes IGF-1 as a potential therapeutic for dysferlinopathies.

Published
2019

9. Draft Guidance for Industry Duchenne Muscular Dystrophy, Becker Muscular Dystrophy, and Related Dystrophinopathies – Developing Potential Treatments for the Entire Spectrum of Disease

Author

McDonald, Craig, primary, Camino, Eric, additional, Escandon, Rafael, additional, Finkel, Richard S., additional, Fischer, Ryan, additional, Flanigan, Kevin, additional, Furlong, Pat, additional, Juhasz, Rose, additional, Martin, Ann S., additional, Villa, Chet, additional, and Sweeney, H. Lee, additional

Published
2024
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10. Myosin Structures

Author

Sweeney, H. Lee, Houdusse, Anne, Robert-Paganin, Julien, Crusio, Wim E., Series Editor, Lambris, John D., Series Editor, Radeke, Heinfried H., Series Editor, Rezaei, Nima, Series Editor, and Coluccio, Lynne M., editor

Published
2020
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11. Modulating fast skeletal muscle contraction protects skeletal muscle in animal models of Duchenne muscular dystrophy

Author

Russell, Alan J., DuVall, Mike, Barthel, Ben, Qian, Ying, Peter, Angela K., Newell-Stamper, Breanne L., Hunt, Kevin, Lehman, Sarah, Madden, Molly, Schlachter, Stephen, Robertson, Ben, Van Deusen, Ashleigh, Rodriguez, Hector M., Vera, Carlos, Su, Yu, Claflin, Dennis R., Brooks, Susan V., Nghiem, Peter, Rutledge, Alexis, Juehne, Twlya I., Yu, Jinsheng, Barton, Elisabeth R., Luo, Yangyi E., Patsalos, Andreas, Nagy, Laszlo, Sweeney, H. Lee, Leinwand, Leslie A., and Koch, Kevin

Subjects
Duchenne muscular dystrophy -- Models -- Development and progression -- Complications and side effects, Animal models in research -- Usage, Muscles -- Health aspects, Muscle contraction -- Health aspects, Health care industry
Abstract

Duchenne muscular dystrophy (DMD) is a lethal muscle disease caused by absence of the protein dystrophin, which acts as a structural link between the basal lamina and contractile machinery to stabilize muscle membranes in response to mechanical stress. In DMD, mechanical stress leads to exaggerated membrane injury and fiber breakdown, with fast fibers being the most susceptible to damage. A major contributor to this injury is muscle contraction, controlled by the motor protein myosin. However, how muscle contraction and fast muscle fiber damage contribute to the pathophysiology of DMD has not been well characterized. We explored the role of fast skeletal muscle contraction in DMD with a potentially novel, selective, orally active inhibitor of fast skeletal muscle myosin, EDG-5506. Surprisingly, even modest decreases of contraction (, Introduction DMD is a lethal, inherited muscle myopathy caused by the absence of dystrophin and destabilization of the dystrophin-glycoprotein complex in the cell membrane (1). Dystrophin provides a structural link [...]

Published
2023
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12. Disease-modifying effects of edasalonexent, an NF-κB inhibitor, in young boys with Duchenne muscular dystrophy: Results of the MoveDMD phase 2 and open label extension trial

Author

Finkel, Richard S., Finanger, Erika, Vandenborne, Krista, Sweeney, H. Lee, Tennekoon, Gihan, Shieh, Perry B., Willcocks, Rebecca, Walter, Glenn, Rooney, William D., Forbes, Sean C., Triplett, William T., Yum, Sabrina W., Mancini, Maria, MacDougall, James, Fretzen, Angelika, Bista, Pradeep, Nichols, Andrew, and Donovan, Joanne M.

Published
2021
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13. A phase 3 randomized placebo-controlled trial of tadalafil for Duchenne muscular dystrophy

Author

Victor, Ronald G, Sweeney, H Lee, Finkel, Richard, McDonald, Craig M, Byrne, Barry, Eagle, Michelle, Goemans, Nathalie, Vandenborne, Krista, Dubrovsky, Alberto L, Topaloglu, Haluk, Miceli, M Carrie, Furlong, Pat, Landry, John, Elashoff, Robert, Cox, David, Abdel-Hamid, Hoda, Apkon, Susan, Barohn, Richard, Belousova, Elena, Bertini, Enrico, Brandsema, John, Bruno, Claudio, Burnette, William, Butterfield, Russell, Campbell, Craig, Carlo, Jose, Chae, Jong-Hee, Chandratre, Saleel, Comi, Giacomo, Connolly, Anne, De Groot, Imelda, Deconinck, Nicolas, Dooley, Joseph, Dubrovsky, Alberto, Durigneux, Julien, Finanger, Erika, Frank, L Matthew, Harper, Amy, Hattori, Ayako, Herguner, Ozlem, Iannaccone, Susan, Janas, Joanne, Jong, Yuh-Jyh, Kirschner, JanBerd, Komaki, Hirofumi, Kuntz, Nancy, Lee, Wang-Tso, Leung, Edward, Mah, Jean, Mathews, Katherine, McDonald, Craig, Mercuri, Eugenio, McMillan, Hugh, Mueller-Felber, Wolfgang, de Munain, Adolfo Lopez, Nakamura, Akinori, Niks, Erik, Ogata, Katsuhisa, Pascual, Samuel, Pegoraro, Elena, Pereon, Yann, Renfroe, Ben, Sanka, Ratna Bhavaraju, Schallner, Jens, Schara, Ulrike, Selby, Kathryn, Sendra, Isabel Illa, Servais, Laurent, Smith, Edward, Sparks, Susan, Victor, Ron, Vilchez, Juan Jose, Wicklund, Matthew, Wilichoswki, Ekkehard, and Wong, Brenda

Subjects
Pediatric, Clinical Research, Duchenne/ Becker Muscular Dystrophy, Clinical Trials and Supportive Activities, Muscular Dystrophy, Intellectual and Developmental Disabilities (IDD), Brain Disorders, Rare Diseases, Evaluation of treatments and therapeutic interventions, 6.1 Pharmaceuticals, Musculoskeletal, Adolescent, Area Under Curve, Child, Dose-Response Relationship, Drug, Double-Blind Method, Follow-Up Studies, Glucocorticoids, Heart Rate, Humans, International Cooperation, Male, Muscular Dystrophy, Duchenne, Quality of Life, Respiratory Function Tests, Tadalafil, Treatment Outcome, Vasodilator Agents, Ventricular Function, Left, Walking, Tadalafil DMD Study Group, Clinical Sciences, Neurosciences, Cognitive Sciences, Neurology & Neurosurgery
Abstract

ObjectiveTo conduct a randomized trial to test the primary hypothesis that once-daily tadalafil, administered orally for 48 weeks, lessens the decline in ambulatory ability in boys with Duchenne muscular dystrophy (DMD).MethodsThree hundred thirty-one participants with DMD 7 to 14 years of age taking glucocorticoids were randomized to tadalafil 0.3 mg·kg-1·d-1, tadalafil 0.6 mg·kg-1·d-1, or placebo. The primary efficacy measure was 6-minute walk distance (6MWD) after 48 weeks. Secondary efficacy measures included North Star Ambulatory Assessment and timed function tests. Performance of Upper Limb (PUL) was a prespecified exploratory outcome.ResultsTadalafil had no effect on the primary outcome: 48-week declines in 6MWD were 51.0 ± 9.3 m with placebo, 64.7 ± 9.8 m with low-dose tadalafil (p = 0.307 vs placebo), and 59.1 ± 9.4 m with high-dose tadalafil (p = 0.538 vs placebo). Tadalafil also had no effect on secondary outcomes. In boys >10 years of age, total PUL score and shoulder subscore declined less with low-dose tadalafil than placebo. Adverse events were consistent with the known safety profile of tadalafil and the DMD disease state.ConclusionsTadalafil did not lessen the decline in ambulatory ability in boys with DMD. Further studies should be considered to confirm the hypothesis-generating upper limb data and to determine whether ambulatory decline can be slowed by initiation of tadalafil before 7 years of age.Clinicaltrialsgov identifierNCT01865084.Classification of evidenceThis study provides Class I evidence that tadalafil does not slow ambulatory decline in 7- to 14-year-old boys with Duchenne muscular dystrophy.

Published
2017

14. Cardiomyopathy in Duchenne Muscular Dystrophy and the Potential for Mitochondrial Therapeutics to Improve Treatment Response.

Author

Gandhi, Shivam, Sweeney, H. Lee, Hart, Cora C., Han, Renzhi, and Perry, Christopher G. R.

Subjects
*DUCHENNE muscular dystrophy, *MYOCARDIUM, *DYSTROPHIN genes, *REACTIVE oxygen species, *NEUROMUSCULAR diseases
Abstract

Duchenne muscular dystrophy (DMD) is a progressive neuromuscular disease caused by mutations to the dystrophin gene, resulting in deficiency of dystrophin protein, loss of myofiber integrity in skeletal and cardiac muscle, and eventual cell death and replacement with fibrotic tissue. Pathologic cardiac manifestations occur in nearly every DMD patient, with the development of cardiomyopathy—the leading cause of death—inevitable by adulthood. As early cardiac abnormalities are difficult to detect, timely diagnosis and appropriate treatment modalities remain a challenge. There is no cure for DMD; treatment is aimed at delaying disease progression and alleviating symptoms. A comprehensive understanding of the pathophysiological mechanisms is crucial to the development of targeted treatments. While established hypotheses of underlying mechanisms include sarcolemmal weakening, upregulation of pro-inflammatory cytokines, and perturbed ion homeostasis, mitochondrial dysfunction is thought to be a potential key contributor. Several experimental compounds targeting the skeletal muscle pathology of DMD are in development, but the effects of such agents on cardiac function remain unclear. The synergistic integration of small molecule- and gene-target-based drugs with metabolic-, immune-, or ion balance-enhancing compounds into a combinatorial therapy offers potential for treating dystrophin deficiency-induced cardiomyopathy, making it crucial to understand the underlying mechanisms driving the disorder. [ABSTRACT FROM AUTHOR]

Published
2024
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16. Increased collagen cross‐linking is a signature of dystrophin‐deficient muscle

Author

Smith, Lucas R, Hammers, David W, Sweeney, H Lee, and Barton, Elisabeth R

Subjects
Brain Disorders, Rare Diseases, Muscular Dystrophy, Pediatric, Duchenne/ Becker Muscular Dystrophy, Intellectual and Developmental Disabilities (IDD), Musculoskeletal, Adolescent, Animals, Child, Collagen, Diaphragm, Dogs, Female, Humans, Hydroxyproline, Male, Mice, Mice, Inbred C57BL, Mice, Inbred mdx, Muscle, Skeletal, Muscular Dystrophy, Duchenne, Protein-Lysine 6-Oxidase, RNA, Messenger, Vimentin, collagen cross-linking, extracellular matrix, fibrosis, lysyl oxidase, muscular dystrophy, Medical and Health Sciences, Neurology & Neurosurgery
Abstract

IntroductionCollagen cross-linking is a key parameter in extracellular matrix (ECM) maturation, turnover, and stiffness. We examined aspects of collagen cross-linking in dystrophin-deficient murine, canine, and human skeletal muscle.MethodsDMD patient biopsies and samples from mdx mice and golden retriever muscular dystrophy dog samples (with appropriate controls) were analyzed. Collagen cross-linking was evaluated using solubility and hydroxyproline assays. Expression of the cross-linking enzyme lysyl oxidase (LOX) was determined by real-time polymerase chain reaction, immunoblotting, and immunofluorescence.ResultsLOX protein levels are increased in dystrophic muscle from all species evaluated. Dystrophic mice and dogs had significantly higher cross-linked collagen than controls, especially in the diaphragm. Distribution of intramuscular LOX was heterogeneous in all samples, but it increased in frequency and intensity in dystrophic muscle.ConclusionThese findings implicate elevated collagen cross-linking as an important component of the disrupted ECM in dystrophic muscles, and heightened cross-linking is evident in mouse, dog, and man. Muscle Nerve 54: 71-78, 2016.

Published
2016

17. Osteopontin ablation ameliorates muscular dystrophy by shifting macrophages to a pro-regenerative phenotype

Author

Capote, Joana, Kramerova, Irina, Martinez, Leonel, Vetrone, Sylvia, Barton, Elisabeth R, Sweeney, H Lee, Miceli, M Carrie, and Spencer, Melissa J

Subjects
Medical Physiology, Biomedical and Clinical Sciences, Regenerative Medicine, Muscular Dystrophy, Brain Disorders, Rare Diseases, Duchenne/ Becker Muscular Dystrophy, Intellectual and Developmental Disabilities (IDD), Pediatric, 2.1 Biological and endogenous factors, Aetiology, Musculoskeletal, Animals, Cell Polarity, Macrophages, Mice, Mice, Inbred C57BL, Mice, Knockout, Muscles, Muscular Dystrophy, Animal, Natural Killer T-Cells, Osteopontin, Phenotype, Regeneration, Biological Sciences, Medical and Health Sciences, Developmental Biology, Biological sciences, Biomedical and clinical sciences
Abstract

In the degenerative disease Duchenne muscular dystrophy, inflammatory cells enter muscles in response to repetitive muscle damage. Immune factors are required for muscle regeneration, but chronic inflammation creates a profibrotic milieu that exacerbates disease progression. Osteopontin (OPN) is an immunomodulator highly expressed in dystrophic muscles. Ablation of OPN correlates with reduced fibrosis and improved muscle strength as well as reduced natural killer T (NKT) cell counts. Here, we demonstrate that the improved dystrophic phenotype observed with OPN ablation does not result from reductions in NKT cells. OPN ablation skews macrophage polarization toward a pro-regenerative phenotype by reducing M1 and M2a and increasing M2c subsets. These changes are associated with increased expression of pro-regenerative factors insulin-like growth factor 1, leukemia inhibitory factor, and urokinase-type plasminogen activator. Furthermore, altered macrophage polarization correlated with increases in muscle weight and muscle fiber diameter, resulting in long-term improvements in muscle strength and function in mdx mice. These findings suggest that OPN ablation promotes muscle repair via macrophage secretion of pro-myogenic growth factors.

Published
2016

18. How a patient advocacy group developed the first proposed draft guidance document for industry for submission to the U.S. Food and Drug Administration.

Author

Furlong, Pat, Bridges, John, Charnas, Lawrence, Fallon, Justin, Fischer, Ryan, Flanigan, Kevin, Franson, Timothy, Gulati, Neera, Peay, Holly, Sweeney, H, and McDonald, Craig

Subjects
Muscular Dystrophy, Duchenne, Patient Advocacy, United States, United States Food and Drug Administration
Abstract

Among the challenges confronting patients with rare diseases is a dearth of treatment options. The development of safe and effective new therapies is hampered by challenges associated with conducting clinical trials in small populations. In this article, we describe how the Duchenne muscular dystrophy community-led by Parent Project Muscular Dystrophy-created a proposed draft guidance document for industry for submission to the U.S. Food and Drug Administration. This unprecedented undertaking involved a broad coalition of more than 80 stakeholders collaborating across nine time zones to produce a document in only 6 months. We hope that other rare disease communities and advocacy organizations can use our experience as a model for developing their own draft guidance documents.

Published
2015

19. Large-scale serum protein biomarker discovery in Duchenne muscular dystrophy.

Author

Hathout, Yetrib, Brody, Edward, Clemens, Paula, Cripe, Linda, DeLisle, Robert, Furlong, Pat, Gordish-Dressman, Heather, Hache, Lauren, Henricson, Erik, Hoffman, Eric, Kobayashi, Yvonne, Lorts, Angela, Mah, Jean, Mehler, Bob, Nelson, Sally, Nikrad, Malti, Singer, Britta, Steele, Fintan, Sterling, David, Sweeney, H, Williams, Steve, Gold, Larry, and McDonald, Craig

Subjects
SOMAmer, SOMAscan, biomarkers, muscular dystrophy, proteomics, Adolescent, Adult, Biomarkers, Blood Proteins, Case-Control Studies, Child, Child, Preschool, Cohort Studies, Humans, Male, Muscular Dystrophy, Duchenne, Young Adult
Abstract

Serum biomarkers in Duchenne muscular dystrophy (DMD) may provide deeper insights into disease pathogenesis, suggest new therapeutic approaches, serve as acute read-outs of drug effects, and be useful as surrogate outcome measures to predict later clinical benefit. In this study a large-scale biomarker discovery was performed on serum samples from patients with DMD and age-matched healthy volunteers using a modified aptamer-based proteomics technology. Levels of 1,125 proteins were quantified in serum samples from two independent DMD cohorts: cohort 1 (The Parent Project Muscular Dystrophy-Cincinnati Childrens Hospital Medical Center), 42 patients with DMD and 28 age-matched normal volunteers; and cohort 2 (The Cooperative International Neuromuscular Research Group, Duchenne Natural History Study), 51 patients with DMD and 17 age-matched normal volunteers. Forty-four proteins showed significant differences that were consistent in both cohorts when comparing DMD patients and healthy volunteers at a 1% false-discovery rate, a large number of significant protein changes for such a small study. These biomarkers can be classified by known cellular processes and by age-dependent changes in protein concentration. Our findings demonstrate both the utility of this unbiased biomarker discovery approach and suggest potential new diagnostic and therapeutic avenues for ameliorating the burden of DMD and, we hope, other rare and devastating diseases.

Published
2015

20. First scientific operation of JPCam, the 1.2 Gpixel camera for the Javalambre-Physics of the Accelerating Universe Astrophysical Survey (J-PAS)

Author

Bryant, Julia J., Motohara, Kentaro, Vernet, Joël R. D., Marín-Franch, A., Vázquez Ramó, H., Zaragoza-Cardiel, J., López-Sanjuan, C., Rueda-Teruel, S., López-Alegre, G., Bello, R., Iñiguez, C., Muniesa-Gallardo, D., Hernández-Fuertes, J., Cenarro, A. J., Cristobal-Hornillos, D., Ederoclite, A., Hernán-Caballero, A., Hernández-Pérez, F. P., Infante-Sanz, R., Kuutma, T., Moles, M., del Pino, A., Pyrzas, S., Varela, J., Akhlaghi, M., Almarcegui, M., Bielsa de Toledo, S., Castillo, J., Civera, T., Cervera-Cortés, M., Chueca, S., Domíngez-Martínez, M., Garcés-Cubel, D., López-Sáinz, Á., Lorenzetti, G., Lozano-Pérez, D., Martínez-Olivar, N., Moreno-Signes, A., Muñoz-Maudos, J., Muñoz-Teruel, A., Rueda-Asensio, H., Rueda-Teruel, F., Vives-Arias, H., Yanes-Díaz, A., Díaz-Martín, M. C., Iglesias-Marzoa, R., Galindo-Guil, F., Lacruz-Calderón, E., Lamadrid-Gutierrez, J. L., López-Martínez, F., Maicas-Sacristán, N., Taylor, K., Santoro, F., Cepa, J., Fermino, C., Bastable, M., Haddow, G., Palmer, I., Simpson, C., Spatola, A., Sweeney, H., Tatard, C., Breading, J., Brauneck, U., Casalta, J. M., Abramo, R., Alcaniz, J., Benitez, N., Silvia, B., Carneiro, S., Dupke, R., Mendes de Oliveira, C., Sodré, L., and Vilchez, J.

Published
2024
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21. Ataluren treatment of patients with nonsense mutation dystrophinopathy.

Author

Bushby, Katharine, Finkel, Richard, Wong, Brenda, Barohn, Richard, Campbell, Craig, Comi, Giacomo, Connolly, Anne, Day, John, Flanigan, Kevin, Goemans, Nathalie, Jones, Kristi, Mercuri, Eugenio, Quinlivan, Ros, Renfroe, James, Russman, Barry, Ryan, Monique, Tulinius, Mar, Voit, Thomas, Moore, Steven, Lee Sweeney, H, Abresch, Richard, Coleman, Kim, Eagle, Michelle, Florence, Julaine, Gappmaier, Eduard, Glanzman, Allan, Henricson, Erik, Barth, Jay, Elfring, Gary, Reha, Allen, Spiegel, Robert, Odonnell, Michael, Peltz, Stuart, and McDonald, Craig

Subjects
Duchenne muscular dystrophy, genetic, nonsense mutation, orphan, pediatric, Adolescent, Child, Child, Preschool, Codon, Nonsense, Dose-Response Relationship, Drug, Double-Blind Method, Dystrophin, Humans, International Cooperation, Male, Muscular Dystrophy, Duchenne, Outcome Assessment, Health Care, Oxadiazoles, Prospective Studies, Time Factors, Walking
Abstract

INTRODUCTION: Dystrophinopathy is a rare, severe muscle disorder, and nonsense mutations are found in 13% of cases. Ataluren was developed to enable ribosomal readthrough of premature stop codons in nonsense mutation (nm) genetic disorders. METHODS: Randomized, double-blind, placebo-controlled study; males ≥ 5 years with nm-dystrophinopathy received study drug orally 3 times daily, ataluren 10, 10, 20 mg/kg (N=57); ataluren 20, 20, 40 mg/kg (N=60); or placebo (N=57) for 48 weeks. The primary endpoint was change in 6-Minute Walk Distance (6MWD) at Week 48. RESULTS: Ataluren was generally well tolerated. The primary endpoint favored ataluren 10, 10, 20 mg/kg versus placebo; the week 48 6MWD Δ=31.3 meters, post hoc P=0.056. Secondary endpoints (timed function tests) showed meaningful differences between ataluren 10, 10, 20 mg/kg, and placebo. CONCLUSIONS: As the first investigational new drug targeting the underlying cause of nm-dystrophinopathy, ataluren offers promise as a treatment for this orphan genetic disorder with high unmet medical need.

Published
2014

22. PDE5 inhibition alleviates functional muscle ischemia in boys with Duchenne muscular dystrophy

Author

Nelson, Michael D, Rader, Florian, Tang, Xiu, Tavyev, Jane, Nelson, Stanley F, Miceli, M Carrie, Elashoff, Robert M, Sweeney, H Lee, and Victor, Ronald G

Subjects
Brain Disorders, Duchenne/ Becker Muscular Dystrophy, Rare Diseases, Neurosciences, Intellectual and Developmental Disabilities (IDD), Clinical Research, Muscular Dystrophy, Pediatric, 2.1 Biological and endogenous factors, Aetiology, 6.1 Pharmaceuticals, Evaluation of treatments and therapeutic interventions, Musculoskeletal, Adolescent, Carbolines, Child, Exercise, Forearm, Humans, Ischemia, Male, Muscle, Skeletal, Muscular Dystrophy, Duchenne, Phosphodiesterase 5 Inhibitors, Piperazines, Purines, Sildenafil Citrate, Spectroscopy, Near-Infrared, Sulfones, Sympathetic Nervous System, Tadalafil, Ultrasonography, Vasoconstriction, Clinical Sciences, Cognitive Sciences, Neurology & Neurosurgery
Abstract

ObjectiveTo determine whether phosphodiesterase type 5 (PDE5) inhibition can alleviate exercise-induced skeletal muscle ischemia in boys with Duchenne muscular dystrophy (DMD).MethodsIn 10 boys with DMD and 10 healthy age-matched male controls, we assessed exercise-induced attenuation of reflex sympathetic vasoconstriction, i.e., functional sympatholysis, a protective mechanism that matches oxygen delivery to metabolic demand. Reflex vasoconstriction was induced by simulated orthostatic stress, measured as the decrease in forearm muscle oxygenation with near-infrared spectroscopy, and performed when the forearm muscles were rested or lightly exercised with rhythmic handgrip exercise. Then, the patients underwent an open-label, dose-escalation, crossover trial with single oral doses of tadalafil or sildenafil.ResultsThe major new findings are 2-fold: first, sympatholysis is impaired in boys with DMD-producing functional muscle ischemia-despite contemporary background therapy with corticosteroids alone or in combination with cardioprotective medication. Second, PDE5 inhibition with standard clinical doses of either tadalafil or sildenafil alleviates this ischemia in a dose-dependent manner. Furthermore, PDE5 inhibition also normalizes the exercise-induced increase in skeletal muscle blood flow (measured by Doppler ultrasound), which is markedly blunted in boys with DMD.ConclusionsThese data provide in-human proof of concept for PDE5 inhibition as a putative new therapeutic strategy for DMD.Classification of evidenceThis study provides Class IV evidence that in patients with DMD, PDE5 inhibition restores functional sympatholysis.

Published
2014

23. Myospreader improves gene editing in skeletal muscle by myonuclear propagation.

Author

Poukalov, Kiril K., Valero, M. Carmen, Muscato, Derek R., Adams, Leanne M., Heejae Chun, Young il Lee, Andrade, Nadja S., Zeier, Zane, Sweeney, H. Lee, and Wang, Eric T.

Subjects
GENOME editing, SKELETAL muscle, GENE therapy, DUCHENNE muscular dystrophy, CRISPRS
Abstract

Successful CRISPR/Cas9-based gene editing in skeletal muscle is dependent on efficient propagation of Cas9 to all myonuclei in the myofiber. However, nuclear-targeted gene therapy cargos are strongly restricted to their myonuclear domain of origin. By screening nuclear localization signals and nuclear export signals, we identify "Myospreader," a combination of short peptide sequences that promotes myonuclear propagation. Appending Myospreader to Cas9 enhances protein stability and myonuclear propagation in myoblasts and myofibers. AAV-delivered Myospreader dCas9 better inhibits transcription of toxic RNA in a myotonic dystrophy mouse model. Furthermore, Myospreader Cas9 achieves higher rates of gene editing in CRISPR reporter and Duchenne muscular dystrophy mouse models. Myospreader reveals design principles relevant to all nuclear-targeted gene therapies and highlights the importance of the spatial dimension in therapeutic development. [ABSTRACT FROM AUTHOR]

Published
2024
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25. Clinical importance of changes in magnetic resonance biomarkers for Duchenne muscular dystrophy

Author

Willcocks, Rebecca J., primary, Barnard, Alison M., additional, Daniels, Michael J., additional, Forbes, Sean C., additional, Triplett, William T., additional, Brandsema, John F., additional, Finanger, Erika L., additional, Rooney, William D., additional, Kim, Sarah, additional, Wang, Dah‐Jyuu, additional, Lott, Donovan J., additional, Senesac, Claudia R., additional, Walter, Glenn A., additional, Sweeney, H. Lee, additional, and Vandenborne, Krista, additional

Published
2023
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27. MR biomarkers predict clinical function in Duchenne muscular dystrophy

Author

Barnard, Alison M., Willcocks, Rebecca J., Triplett, William T., Forbes, Sean C., Daniels, Michael J., Chakraborty, Saptarshi, Lott, Donovan J., Senesac, Claudia R., Finanger, Erika L., Harrington, Ann T., Tennekoon, Gihan, Arora, Harneet, Wang, Dah-Jyuu, Sweeney, H. Lee, Rooney, William D., Walter, Glenn A., and Vandenborne, Krista

Published
2020
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33. Ataluren in patients with nonsense mutation Duchenne muscular dystrophy (ACT DMD): a multicentre, randomised, double-blind, placebo-controlled, phase 3 trial

Author

Alfano, Lindsay N, Eagle, Michelle, James, Meredith K, Lowes, Linda, Mayhew, Anna, Mazzone, Elena S, Nelson, Leslie, Rose, Kristy J, Abdel-Hamid, Hoda Z, Apkon, Susan D, Barohn, Richard J, Bertini, Enrico, Bloetzer, Clemens, de Vaud, Lausanne Canton, Butterfield, Russell J, Chabrol, Brigitte, Chae, Jong-Hee, Jongno-gu, Daehak-ro, Comi, Giacomi Pietro, Darras, Basil T, Dastgir, Jahannaz, Desguerre, Isabelle, Escobar, Raul G, Finanger, Erika, Guglieri, Michela, Hughes, Imelda, Iannaccone, Susan T, Jones, Kristi J, Karachunski, Peter, Kudr, Martin, Lotze, Timothy, Mah, Jean K, Mathews, Katherine, Nevo, Yoram, Parsons, Julie, Péréon, Yann, de Queiroz Campos Araujo, Alexandra Prufer, Renfroe, J Ben, de Resende, Maria Bernadete Dutra, Ryan, Monique, Selby, Kathryn, Tennekoon, Gihan, Vita, Giuseppe, McDonald, Craig M, Campbell, Craig, Torricelli, Ricardo Erazo, Finkel, Richard S, Flanigan, Kevin M, Goemans, Nathalie, Heydemann, Peter, Kaminska, Anna, Kirschner, Janbernd, Muntoni, Francesco, Osorio, Andrés Nascimento, Schara, Ulrike, Sejersen, Thomas, Shieh, Perry B, Sweeney, H Lee, Topaloglu, Haluk, Tulinius, Már, Vilchez, Juan J, Voit, Thomas, Wong, Brenda, Elfring, Gary, Kroger, Hans, Luo, Xiaohui, McIntosh, Joseph, Ong, Tuyen, Riebling, Peter, Souza, Marcio, Spiegel, Robert J, Peltz, Stuart W, and Mercuri, Eugenio

Published
2017
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38. Clinical importance of changes in magnetic resonance biomarkers for Duchenne muscular dystrophy.

Author

Willcocks, Rebecca J., Barnard, Alison M., Daniels, Michael J., Forbes, Sean C., Triplett, William T., Brandsema, John F., Finanger, Erika L., Rooney, William D., Kim, Sarah, Wang, Dah‐Jyuu, Lott, Donovan J., Senesac, Claudia R., Walter, Glenn A., Sweeney, H. Lee, and Vandenborne, Krista

Subjects
DUCHENNE muscular dystrophy, MAGNETIC resonance, PAIN threshold, MUSCULAR dystrophy, LEG muscles, SPECTRAL imaging
Abstract

Objective: Magnetic resonance (MR) measures of muscle quality are highly sensitive to disease progression and predictive of meaningful functional milestones in Duchenne muscular dystrophy (DMD). This investigation aimed to establish the reproducibility, responsiveness to disease progression, and minimum clinically important difference (MCID) for multiple MR biomarkers at different disease stages in DMD using a large natural history dataset. Methods: Longitudinal MR imaging and spectroscopy outcomes and ambulatory function were measured in 180 individuals with DMD at three sites, including repeated measurements on two separate days (within 1 week) in 111 participants. These data were used to calculate day‐to‐day reproducibility, responsiveness (standardized response mean, SRM), minimum detectable change, and MCID. A survey of experts was also performed. Results: MR spectroscopy fat fraction (FF), as well as MR imaging transverse relaxation time (MRI‐T2), measures performed in multiple leg muscles, and had high reproducibility (Pearson's R > 0.95). Responsiveness to disease progression varied by disease stage across muscles. The average FF from upper and lower leg muscles was highly responsive (SRM > 0.9) in both ambulatory and nonambulatory individuals. MCID estimated from the distribution of scores, by anchoring to function, and via expert opinion was between 0.01 and 0.05 for FF and between 0.8 and 3.7 ms for MRI‐T2. Interpretation: MR measures of FF and MRI T2 are reliable and highly responsive to disease progression. The MCID for MR measures is less than or equal to the typical annualized change. These results confirm the suitability of these measures for use in DMD and potentially other muscular dystrophies. [ABSTRACT FROM AUTHOR]

Published
2024
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42. Modeling disease trajectory in Duchenne muscular dystrophy

Author

Rooney, William D., Berlow, Yosef A., Triplett, William T., Forbes, Sean C., Willcocks, Rebecca J., Wang, Dah-Jyuu, Arpan, Ishu, Arora, Harneet, Senesac, Claudia, Lott, Donovan J., Tennekoon, Gihan, Finkel, Richard, Russman, Barry S., Finanger, Erika L., Chakraborty, Saptarshi, OʼBrien, Elliott, Moloney, Brendan, Barnard, Alison, Sweeney, H. Lee, Daniels, Michael J., Walter, Glenn A., and Vandenborne, Krista

Published
2020
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50. The Antiparallel Coiled-Coil Domain Allows Multiple Forward Step Sizes of Myosin X

Author

Nguyen, Quang Quan, Zhou, Yangbo, Cheng, Man Sze, Qin, Xianan, Cheng, Harry Chun Man, Liu, Xiaoyan, Sweeney, H. Lee, Park, Hyo Keun, Nguyen, Quang Quan, Zhou, Yangbo, Cheng, Man Sze, Qin, Xianan, Cheng, Harry Chun Man, Liu, Xiaoyan, Sweeney, H. Lee, and Park, Hyo Keun

Abstract

Myosin X forms an antiparallel dimer and moves processively on actin bundles. How the antiparallel dimer affects the stepping mechanism of myosin X remains elusive. Here, we generated several chimeras using domains of myosin V and X and performed single-molecule motility assays. We found that the chimera containing the motor domain from myosin V and the lever arm and antiparallel coiled-coil domain from myosin X has multiple forward step sizes and moves processively, similar to full-length myosin X. The chimera containing the motor domain and lever arm from myosin X and the parallel coiled-coil from myosin V takes steps of ∼40 nm at lower ATP concentrations but was nonprocessive at higher ATP concentrations. Furthermore, mutant myosin X with four mutations in the antiparallel coiled-coil domain failed to dimerize and was nonprocessive. These results imply that the antiparallel coiled-coil domain is necessary for multiple forward step sizes of myosin X.

Published
2023

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