Enzyme-Loaded Gel Core Nanostructured Lipid Carriers to Improve Treatment of Lysosomal Storage Diseases: Formulation and In Vitro Cellular Studies of Elosulfase Alfa-Loaded Systems

Enzyme-Loaded Gel Core Nanostructured Lipid Carriers to Improve Treatment of Lysosomal Storage Diseases: Formulation and In Vitro Cellular Studies of Elosulfase Alfa-Loaded Systems

Mucopolysaccharidosis IVA (Morquio A) is a rare inherited metabolic disease caused by deficiency of the lysosomal enzyme N-acetylgalatosamine-6-sulfate-sulfatase (GALNS). Until now, treatments employed included hematopoietic stem cell transplantation and enzyme replacement therapy (ERT); the latter...

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Published in:Pharmaceutics Vol. 11; no. 10; p. 522
Main Authors: Álvarez, J., Herrero Filgueira, Carolina, González, Alexandre, Colón Mejeras, Cristóbal, Beiras Iglesias, Andrés, Tomatsu, Shunji, Blanco Méndez, José, Luzardo Álvarez, Asteria, Couce, María, Otero Espinar, Francisco
Format: Journal Article
Language:English
Published: Basel MDPI AG 11-10-2019
MDPI
Subjects:
Biodistribution
Cartilage
elosulfase alfa
enzyme activity
Enzymes
Immunology
in vitro cell studies
Lipids
lysosomal storage diseases
Nanoparticles
nanostructured lipid carrier (nlc)
Particle size
Polyethylene glycol
Solids
Ultrasonic imaging
United States > US
Germany
Spain
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Summary:Mucopolysaccharidosis IVA (Morquio A) is a rare inherited metabolic disease caused by deficiency of the lysosomal enzyme N-acetylgalatosamine-6-sulfate-sulfatase (GALNS). Until now, treatments employed included hematopoietic stem cell transplantation and enzyme replacement therapy (ERT); the latter being the most commonly used to treat mucopolysaccharidoses, but with serious disadvantages due to rapid degradation and clearance. The purpose of this study was to develop and evaluate the potential of nanostructured lipid carriers (NLCs) by encapsulating elosulfase alfa and preserving its enzyme activity, leading to enhancement of its biological effect in chondrocyte cells. A pegylated elosulfase alfa-loaded NLC was characterized in terms of size, ζ potential, structural lipid composition (DSC and XRD), morphology (TEM microscopy), and stability in human plasma. The final formulation was freeze-dried by selecting the appropriate cryoprotective agent. Viability assays confirmed that NLCs were non-cytotoxic to human fibroblasts. Imaging techniques (confocal and TEM) were used to assess the cellular uptake of NLCs loaded with elosulfase alfa. This study provides evidence that the encapsulated drug exhibits enzyme activity inside the cells. Overall, this study provides a new approach regarding NLCs as a promising delivery system for the encapsulation of elosulfase alfa or other enzymes and the preservation of its activity and stability to be used in enzymatic replacement therapy (ERT).
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ISSN:1999-4923
1999-4923
DOI:10.3390/pharmaceutics11100522