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      Duvoglustat HCl Increases Systemic and Tissue Exposure of Active Acid α-Glucosidase in Pompe Patients Co-administered with Alglucosidase α

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          Abstract

          Duvoglustat HCl (AT2220, 1-deoxynojirimycin) is an investigational pharmacological chaperone for the treatment of acid α-glucosidase (GAA) deficiency, which leads to the lysosomal storage disorder Pompe disease, which is characterized by progressive accumulation of lysosomal glycogen primarily in heart and skeletal muscles. The current standard of care is enzyme replacement therapy with recombinant human GAA (alglucosidase alfa [AA], Genzyme). Based on preclinical data, oral co-administration of duvoglustat HCl with AA increases exposure of active levels in plasma and skeletal muscles, leading to greater substrate reduction in muscle. This phase 2a study consisted of an open-label, fixed-treatment sequence that evaluated the effect of single oral doses of 50 mg, 100 mg, 250 mg, or 600 mg duvoglustat HCl on the pharmacokinetics and tissue levels of intravenously infused AA (20 mg/kg) in Pompe patients. AA alone resulted in increases in total GAA activity and protein in plasma compared to baseline. Following co-administration with duvoglustat HCl, total GAA activity and protein in plasma were further increased 1.2- to 2.8-fold compared to AA alone in all 25 Pompe patients; importantly, muscle GAA activity was increased for all co-administration treatments from day 3 biopsy specimens. No duvoglustat-related adverse events or drug-related tolerability issues were identified.

          Abstract

          Pharmacological chaperones stabilize enzyme replacement in circulation, providing increased uptake of properly folded enzyme into tissues. In a phase 2a study, Kishnani et al. demonstrate a 2-fold increase in plasma and increased uptake in muscle of active recombinant human GAA following co-administration with duvoglustat HCl in patients with late onset Pompe disease.

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          Characterization of pre- and post-treatment pathology after enzyme replacement therapy for Pompe disease.

          In Pompe disease, a genetic deficiency of lysosomal acid alpha-glucosidase, glycogen accumulates abnormally in the lysosomes of skeletal, cardiac and smooth muscle, and contributes to clinically progressive and debilitating muscle weakness. The present study involved 8 infantile-onset Pompe patients, treated weekly with 10 mg/kg of recombinant human acid alpha-glucosidase (rhGAA). Muscle biopsies were obtained at baseline, 12 and 52 weeks post-treatment to establish an indicator of efficacy. Several histologic strategies were employed to characterize changes in pre- and post-treatment samples, including high-resolution light microscopy and digital histomorphometry, electron microscopy, capillary density and fiber type analysis, and confocal microscopy for satellite cell activation analysis. Histomorphometric analysis was performed on muscle samples to assess glycogen depletion in response to enzyme replacement therapy (ERT). The extent of glycogen clearance varied widely among these patient samples, and correlated well with clinical outcome. Low glycogen levels, mild ultrastructural damage, a high proportion of type I fibers, and young age at baseline were all features associated with good histologic response. There was no correlation between capillary density and glycogen clearance, and activated satellite cell levels were shown to be higher in post-treatment biopsies with poor histologic responses. This histopathologic study of infantile Pompe disease provides detailed insight into the cellular progression of the disease and its response to therapy while highlighting a number of methodologies which may be employed to assess regression or progression of the associated pathology. As enzyme replacement therapy becomes more prevalent for the treatment of lysosomal storage diseases, such evaluation of post-treatment pathology will likely become a more common occurrence in the daily practice of pathologists.
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            Enzyme replacement therapy with alglucosidase alfa in 44 patients with late-onset glycogen storage disease type 2: 12-month results of an observational clinical trial.

            Late-onset glycogen storage disease type 2 (GSD2)/Pompe disease is a progressive multi-system disease evoked by a deficiency of lysosomal acid alpha-glucosidase (GAA) activity. GSD2 is characterized by respiratory and skeletal muscle weakness and atrophy, resulting in functional disability and reduced life span. Since 2006 alglucosidase alfa has been licensed as a treatment in all types of GSD2/Pompe disease. We here present an open-label, investigator-initiated observational study of alglucosidase alfa enzyme replacement therapy (ERT) in 44 late-onset GSD2 patients with various stages of disease severity. Alglucosidase alfa was given i.v. at the standard dose of 20 mg/kg every other week. Assessments included serial arm function tests (AFT), Walton Gardner Medwin scale (WGMS), timed 10-m walk tests, four-stair climb tests, modified Gowers' maneuvers, 6-min walk tests, MRC sum score, forced vital capacities (FVC), creatine kinase (CK) levels and SF-36 self-reporting questionnaires. All tests were performed at baseline and every 3 months for 12 months of ERT. We found significant changes from baseline in the modified Gowers' test, the CK levels and the 6-min walk test (341 +/- 149.49 m, median 342.25 m at baseline; 393 +/- 156.98 m; median 411.50 m at endpoint; p = 0.026), while all other tests were unchanged. ERT over 12 months revealed minor allergic reactions in 10% of the patients. No serious adverse events occurred. None of the patients died or required de novo ventilation. Our clinical outcome data imply stabilization of neuromuscular deficits over 1 year with mild functional improvement.
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              Pompe disease in infants and children.

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                Author and article information

                Contributors
                Journal
                Mol Ther
                Mol. Ther
                Molecular Therapy
                American Society of Gene & Cell Therapy
                1525-0016
                1525-0024
                22 March 2017
                03 May 2017
                22 March 2017
                : 25
                : 5
                : 1199-1208
                Affiliations
                [1 ]Duke University Medical Center, Durham, NC 27710, USA
                [2 ]McMaster University Medical Center, Hamilton, ON L8N 3Z5, Canada
                [3 ]Salford Royal Hope HNS Trust Hope Hospital, Salford M6 8HD, UK
                [4 ]Neuromuscular Research Center, Scottsdale, AZ 85028, USA
                [5 ]University of Kansas Medical Center, Kansas City, KS 66160, USA
                [6 ]Oregon Health and Science University, Portland, OR 97239, USA
                [7 ]LSD Research and Treatment Unit, O&O Alpan, LLC, Fairfax, VA 22030, USA
                [8 ]Great Falls Clinic, Great Falls, MT 59405, USA
                [9 ]University of California, Irvine, Irvine, CA 92697, USA
                [10 ]Emory University, Decatur, GA 30030, USA
                [11 ]Hopital la Salpetriere Institut de Myologie, 75013 Paris, France
                [12 ]Phoenix Neurological Associates, Phoenix, AZ 85018, USA
                [13 ]Insys Therapeutics, Chandler, AZ 85224, USA
                [14 ]Amicus Therapeutics, Cranbury, NJ 08512, USA
                [15 ]Arvinas, Inc., New Haven, CT 06511, USA
                [16 ]The Parkinson’s Institute and Clinical Center, Sunnyvale, CA 94085, USA
                [17 ]TranscripTx, Inc., Sunnyvale, CA 94085, USA
                [18 ]Cymabay Therapeutics, Newark, CA 94560, USA
                [19 ]University of Florida, Gainesville, FL 32611, USA
                Author notes
                []Corresponding author: Franklin K. Johnson, Amicus Therapeutics, 1 Cedar Brook Drive, Cranbury, NJ 08512, USA. fjohnson@ 123456amicusrx.com
                [20]

                Present address: Wellstar Health Systems, Marietta, GA 30066, USA

                Article
                S1525-0016(17)30097-7
                10.1016/j.ymthe.2017.02.017
                5417791
                8d26efa1-1294-4bf2-b172-a75553341646
                © 2017 The Author(s)

                This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/).

                History
                : 29 September 2016
                : 25 February 2017
                Categories
                Original Article

                Molecular medicine
                pompe disease,pharmacological chaperone,enzyme replacement therapy,pharmacokinetics

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