Efficient therapy for refractory Pompe disease by mannose 6-phosphate analogue grafting on acid α-glucosidase

Pompe disease is a rare disorder due to deficiency of the acid α-glucosidase (GAA) treated by enzyme replacement therapy. The present authorized treatment with rhGAA, the recombinant human enzyme, provides an important benefit in the infantile onset; however, the juvenile and adult forms of the dise...

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Bibliographic Details
Published in:Journal of controlled release 2018-01, Vol.269, p.15-23
Main Authors: Basile, Ilaria, Da Silva, Afitz, El Cheikh, Khaled, Godefroy, Anastasia, Daurat, Morgane, Harmois, Alice, Perez, Marc, Caillaud, Catherine, Charbonné, Henry-Vincent, Pau, Bernard, Gary-Bobo, Magali, Morère, Alain, Garcia, Marcel, Maynadier, Marie
Format: Article
Language:English
Subjects:
Alpha acid glucosidase
Enzyme replacement therapy
Life Sciences
Lysosomal storage disease
Mannose 6-phosphate receptor targeting
Pharmaceutical sciences
Pharmacology
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Summary:Pompe disease is a rare disorder due to deficiency of the acid α-glucosidase (GAA) treated by enzyme replacement therapy. The present authorized treatment with rhGAA, the recombinant human enzyme, provides an important benefit in the infantile onset; however, the juvenile and adult forms of the disease corresponding to >80% of the patients are less responsive to this treatment. This resistance has been mainly attributed to an insufficiency of mannose 6-phosphate residues in rhGAA to address lysosomes through the cation-independent mannose 6-phosphate receptor (CI-M6PR). As yet, several attempts to improve the enzyme delivery by increasing the number of mannose 6-phosphate on the enzyme were poorly effective on the late onset form of the disease. Here, we show that chemical conjugation of a synthetic analogue of the mannose 6-phosphate, named AMFA, onto rhGAA improves the affinity for CI-M6PR and the uptake of the enzyme in fibroblasts and myoblasts of adult Pompe patients. More importantly, only the conjugated rhGAA-AMFA was effective in aged Pompe mice when compared to rhGAA. Weekly treatment with 5–20mg·kg−1 rhGAA-AMFA provided major improvements of the motor function and of the myofiber structure, whereas rhGAA was inactive. Finally, AMFA addition did not induce supplementary immune response to the enzyme. This modified enzyme, displaying a muscle recovery in aged Pompe mice that was never attained before, could be considered as a potential therapy for the late onset Pompe disease. [Display omitted]
ISSN:0168-3659
1873-4995
DOI:10.1016/j.jconrel.2017.10.043