Mucopolysaccharidoses (MPSs) are a group of inherited lysosomal storage disorders associated with the deficiency of lysosomal enzymes involved in glycosaminoglycan (GAG) degradation. The resulting cellular accumulation of GAGs is responsible for widespread tissue and organ dysfunctions. The MPS III, caused by mutations in the genes responsible for the degradation of heparan sulfate (HS), includes four subtypes (A, B, C, and D) that present significant neurological manifestations such as progressive cognitive decline and behavioral disorders. The established treatments for the MPS III do not cure the disease but only ameliorate non-neurological clinical symptoms. We previously demonstrated that the natural variant of the hepatocyte growth factor NK1 reduces the lysosomal pathology and reactivates impaired growth factor signaling in fibroblasts from MPS IIIB patients. Here, we show that the recombinant NK1 is effective in rescuing the morphological and functional dysfunctions of lysosomes in a neuronal cellular model of the MPS IIIB. More importantly, NK1 treatment is able to stimulate neuronal differentiation of neuroblastoma SK-NBE cells stable silenced for the NAGLU gene causative of the MPS IIIB. These results provide the basis for the development of a novel approach to possibly correct the neurological phenotypes of the MPS IIIB as well as of other MPSs characterized by the accumulation of HS and progressive neurodegeneration.
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| http://dx.doi.org/10.1016/j.bbamcr.2021.119113 | DOI Listing |
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Article Synopsis
- MPS IIIB is a rare disorder caused by defects in the enzyme NAGLU, leading to brain dysfunction due to the accumulation of heparan sulfate in lysosomes.
- Researchers created a Drosophila (fruit fly) model with various NAGLU mutations to study the disorder's effects on activity and sleep patterns, revealing significant hyperactivity and sleep issues.
- The study found that gene expression changes in mutant flies are linked to problems with nervous system development and synaptic function, suggesting that this fly model could help develop future therapies for MPS IIIB.
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