In vitro treatment of congenital disorder of glycosylation type Ia using PLGA nanoparticles loaded with GDP­Man.

ABSTRACT

Congenital disorder of glycosylation (CDG) type Ia is a multisystem disorder that occurs due to mutations in the phosphomannomutase 2 (PMM2) gene, which encodes for an enzyme involved in the N­glycosylation pathway. Mutated PMM2 leads to the reduced conversion of mannose­6­P to mannose­1­P, which results in low concentration levels of guanosine 5'­diphospho­D­mannose (GDP­Man), a nucleotide­activated sugar essential for the construction of protein oligosaccharide chains. In the present study, an in vitro therapeutic approach was used, based on GDP­Man­loaded poly (D,L­lactide­co­glycolide) (PLGA) nanoparticles (NPs), which were used to treat CDG­Ia fibroblast cultures, thus bypassing the glycosylation pathway reaction catalysed by PMM2. To assess the degree of hypoglycosylation in vitro, the present study examined the activities of α­mannosidase, ß­glucoronidase and ß­galactosidase in defective and normal fibroblasts. GDP­Man (30 µg/ml GDP­Man PLGA NPs) was incubated for 48 h with the cells and the specific activities of α­mannosidase and ß­galactosidase were estimated at 69 and 92% compared with healthy controls. The residual activity of ß­glucoronidase increased from 6.5 to 32.5% and was significantly higher compared with that noted in the untreated CDG­Ia fibroblasts. The glycosylation process of fibroblasts was also analysed by two­dimensional electrophoresis. The results demonstrated that treatment caused the reappearance of several glycosylated proteins. The data in vitro showed that GDP­Man PLGA NPs have desirable efficacy and warrant further evaluation in a preclinical validation animal model.