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Intracerebroventricular dosing of N-sulfoglucosamine sulfohydrolase in mucopolysaccharidosis IIIA mice reduces markers of brain lysosomal dysfunction.
Magat, Jenna; Jones, Samantha; Baridon, Brian; Agrawal, Vishal; Wong, Hio; Giaramita, Alexander; Mangini, Linley; Handyside, Britta; Vitelli, Catherine; Parker, Monica; Yeung, Natasha; Zhou, Yu; Pungor, Erno; Slabodkin, Ilya; Gorostiza, Olivia; Aguilera, Allora; Lo, Melanie J; Alcozie, Saida; Christianson, Terri M; Tiger, Pascale M N; Vincelette, Jon; Fong, Sylvia; Gil, Geuncheol; Hague, Chuck; Lawrence, Roger; Wendt, Daniel J; Lebowitz, Jonathan H; Bunting, Stuart; Bullens, Sherry; Crawford, Brett E; Roy, Sushmita M; Woloszynek, Josh C.
Affiliation
  • Magat J; Department of Research, BioMarin Pharmaceutical Inc, Novato, California, USA.
  • Jones S; Department of Research, BioMarin Pharmaceutical Inc, Novato, California, USA.
  • Baridon B; Department of Research, BioMarin Pharmaceutical Inc, Novato, California, USA.
  • Agrawal V; Department of Research, BioMarin Pharmaceutical Inc, Novato, California, USA.
  • Wong H; Department of Process Sciences, BioMarin Pharmaceutical Inc, Novato, California, USA.
  • Giaramita A; Department of Research, BioMarin Pharmaceutical Inc, Novato, California, USA.
  • Mangini L; Department of Research, BioMarin Pharmaceutical Inc, Novato, California, USA.
  • Handyside B; Department of Research, BioMarin Pharmaceutical Inc, Novato, California, USA.
  • Vitelli C; Department of Research, BioMarin Pharmaceutical Inc, Novato, California, USA.
  • Parker M; Department of Process Sciences, BioMarin Pharmaceutical Inc, Novato, California, USA.
  • Yeung N; Department of Process Sciences, BioMarin Pharmaceutical Inc, Novato, California, USA.
  • Zhou Y; Department of Process Sciences, BioMarin Pharmaceutical Inc, Novato, California, USA.
  • Pungor E; Department of Process Sciences, BioMarin Pharmaceutical Inc, Novato, California, USA.
  • Slabodkin I; Department of Research, BioMarin Pharmaceutical Inc, Novato, California, USA.
  • Gorostiza O; Department of Research, BioMarin Pharmaceutical Inc, Novato, California, USA.
  • Aguilera A; Department of Process Sciences, BioMarin Pharmaceutical Inc, Novato, California, USA.
  • Lo MJ; Department of Research, BioMarin Pharmaceutical Inc, Novato, California, USA.
  • Alcozie S; Department of Research, BioMarin Pharmaceutical Inc, Novato, California, USA.
  • Christianson TM; Department of Research, BioMarin Pharmaceutical Inc, Novato, California, USA.
  • Tiger PMN; Department of Research, BioMarin Pharmaceutical Inc, Novato, California, USA.
  • Vincelette J; Department of Research, BioMarin Pharmaceutical Inc, Novato, California, USA.
  • Fong S; Department of Research, BioMarin Pharmaceutical Inc, Novato, California, USA.
  • Gil G; Department of Process Sciences, BioMarin Pharmaceutical Inc, Novato, California, USA.
  • Hague C; Department of Process Sciences, BioMarin Pharmaceutical Inc, Novato, California, USA.
  • Lawrence R; Department of Research, BioMarin Pharmaceutical Inc, Novato, California, USA.
  • Wendt DJ; Department of Research, BioMarin Pharmaceutical Inc, Novato, California, USA.
  • Lebowitz JH; Department of Research, BioMarin Pharmaceutical Inc, Novato, California, USA.
  • Bunting S; Department of Research, BioMarin Pharmaceutical Inc, Novato, California, USA.
  • Bullens S; Department of Research, BioMarin Pharmaceutical Inc, Novato, California, USA.
  • Crawford BE; Department of Research, BioMarin Pharmaceutical Inc, Novato, California, USA.
  • Roy SM; Department of Process Sciences, BioMarin Pharmaceutical Inc, Novato, California, USA.
  • Woloszynek JC; Department of Research, BioMarin Pharmaceutical Inc, Novato, California, USA. Electronic address: josh.woloszynek@gmail.com.
J Biol Chem ; 298(12): 102625, 2022 12.
Article in En | MEDLINE | ID: mdl-36306823
ABSTRACT
Mucopolysaccharidosis type IIIA (MPS IIIA) is a lysosomal storage disorder caused by N-sulfoglucosamine sulfohydrolase (SGSH) deficiency. SGSH removes the sulfate from N-sulfoglucosamine residues on the nonreducing end of heparan sulfate (HS-NRE) within lysosomes. Enzyme deficiency results in accumulation of partially degraded HS within lysosomes throughout the body, leading to a progressive severe neurological disease. Enzyme replacement therapy has been proposed, but further evaluation of the treatment strategy is needed. Here, we used Chinese hamster ovary cells to produce a highly soluble and fully active recombinant human sulfamidase (rhSGSH). We discovered that rhSGSH utilizes both the CI-MPR and LRP1 receptors for uptake into patient fibroblasts. A single intracerebroventricular (ICV) injection of rhSGSH in MPS IIIA mice resulted in a tissue half-life of 9 days and widespread distribution throughout the brain. Following a single ICV dose, both total HS and the MPS IIIA disease-specific HS-NRE were dramatically reduced, reaching a nadir 2 weeks post dose. The durability of effect for reduction of both substrate and protein markers of lysosomal dysfunction and a neuroimmune response lasted through the 56 days tested. Furthermore, seven weekly 148 µg doses ICV reduced those markers to near normal and produced a 99.5% reduction in HS-NRE levels. A pilot study utilizing every other week dosing in two animals supports further evaluation of less frequent dosing. Finally, our dose-response study also suggests lower doses may be efficacious. Our findings show that rhSGSH can normalize lysosomal HS storage and markers of a neuroimmune response when delivered ICV.
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Full text: 1 Collection: 01-internacional Database: MEDLINE Main subject: Brain Diseases / Mucopolysaccharidosis III Limits: Animals / Humans Language: En Journal: J Biol Chem Year: 2022 Document type: Article Affiliation country: United States
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Full text: 1 Collection: 01-internacional Database: MEDLINE Main subject: Brain Diseases / Mucopolysaccharidosis III Limits: Animals / Humans Language: En Journal: J Biol Chem Year: 2022 Document type: Article Affiliation country: United States