CNS-directed gene therapy for the treatment of neurologic and somatic mucopolysaccharidosis type II (Hunter syndrome)
Sandra Motas, Virginia Haurigot, Miguel Garcia, Sara Marcó, Albert Ribera, Carles Roca, Xavier Sánchez, Víctor Sánchez, Maria Molas, Joan Bertolin, Luca Maggioni, Xavier León, Jesús Ruberte, Fatima Bosch
Sandra Motas, Virginia Haurigot, Miguel Garcia, Sara Marcó, Albert Ribera, Carles Roca, Xavier Sánchez, Víctor Sánchez, Maria Molas, Joan Bertolin, Luca Maggioni, Xavier León, Jesús Ruberte, Fatima Bosch
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Research Article Neuroscience Therapeutics

CNS-directed gene therapy for the treatment of neurologic and somatic mucopolysaccharidosis type II (Hunter syndrome)

Abstract

Mucopolysaccharidosis type II (MPSII) is an X-linked lysosomal storage disease characterized by severe neurologic and somatic disease caused by deficiency of iduronate-2-sulfatase (IDS), an enzyme that catabolizes the glycosaminoglycans heparan and dermatan sulphate. Intravenous enzyme replacement therapy (ERT) currently constitutes the only approved therapeutic option for MPSII. However, the inability of recombinant IDS to efficiently cross the blood-brain barrier (BBB) limits ERT efficacy in treating neurological symptoms. Here, we report a gene therapy approach for MPSII through direct delivery of vectors to the CNS. Through a minimally invasive procedure, we administered adeno-associated virus vectors encoding IDS (AAV9-Ids) to the cerebrospinal fluid of MPSII mice with already established disease. Treated mice showed a significant increase in IDS activity throughout the encephalon, with full resolution of lysosomal storage lesions, reversal of lysosomal dysfunction, normalization of brain transcriptomic signature, and disappearance of neuroinflammation. Moreover, our vector also transduced the liver, providing a peripheral source of therapeutic protein that corrected storage pathology in visceral organs, with evidence of cross-correction of nontransduced organs by circulating enzyme. Importantly, AAV9-Ids-treated MPSII mice showed normalization of behavioral deficits and considerably prolonged survival. These results provide a strong proof of concept for the clinical translation of our approach for the treatment of Hunter syndrome patients with cognitive impairment.

Authors

Sandra Motas, Virginia Haurigot, Miguel Garcia, Sara Marcó, Albert Ribera, Carles Roca, Xavier Sánchez, Víctor Sánchez, Maria Molas, Joan Bertolin, Luca Maggioni, Xavier León, Jesús Ruberte, Fatima Bosch

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Figure 7

Impact of CSF delivery of Ids -encoding vectors on MPSII somatic pathology.

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Impact of CSF delivery of Ids -encoding vectors on M...
(AC) Measurement of iduronate-2-sulfatase (IDS) activity in (A) liver, (B) lung, and (C) heart samples obtained from WT, untreated mucopolysaccharidosis type II (MPSII), and MPSII mice injected in the intra-CSF with null vector (MPSII+AAV9-Null) or therapeutic vector (MPSII+AAV9-Ids). IDS activity is expressed as a percentage of WT, where WT activity was set to 100%. (D) Quantification of glycosaminoglycan (GAG) content in somatic organs 4 months after vector delivery. Intra-CSF treatment with AAV9-Ids resulted in full correction of GAG accumulation in almost all somatic tissues analyzed. (E) Weight of the liver in 6-month-old animals. (F) Evaluation of the size of the lysosomal compartment in peripheral organs through lysosomal-associated membrane protein 1 (LAMP1) immunostaining in the same animals. Scale bar: 50 μm; 10 μm (insets). Data are shown as mean ± SEM of 4–5 animals/group in (AD and F) and 14–22 in (E). *P < 0.05, **P < 0.01, ***P < 0.001, ****P < 0.0001 vs. MPSII+AAV9-Null (Dunnett’s test). In B and C, the WT group was excluded from the ANOVA analysis.