A patient-friendly and efficient treatment method for patients with spinocerebellar ataxia type 3 (SCA3) was provided through a nose-to-brain liposomal system. Initially, PGK1 was overexpressed in HEK 293-84Q-GFP diseased cells (HEK 293-84Q-GFP-PGK1 cells) to confirm its effect on the diseased protein polyQ. A decrease in polyQ expression was demonstrated in HEK 293-84Q-GFP-PGK1 cells compared to HEK 293-84Q-GFP parental cells. Subsequently, PGK1 was encapsulated in a liposomal system to evaluate its therapeutic efficiency in SCA3. The optimized liposomes exhibited a significantly enhanced positive charge, facilitating efficient intracellular protein delivery to the cells. The proteins were encapsulated within the liposomes using an optimized method involving a combination of heat shock and sonication. The liposomal system was further demonstrated to be deliverable to the brain via intranasal administration. PGK1/liposomes were intranasally delivered to SCA3 mice, which subsequently exhibited an amelioration of motor impairment, as assessed via the accelerated rotarod test. Additionally, fewer shrunken morphology Purkinje cells and a reduction in polyQ expression were observed in SCA3 mice that received PGK1/liposomes but not in the untreated, liposome-only, or PGK1-only groups. This study provides a non-invasive route for protein delivery and greater delivery efficiency via the liposomal system for treating neurodegenerative diseases.
Keywords: Intranasal administration; Liposomes; Phosphoglycerate kinase 1; Polyglutamine; Spinocerebellar ataxia type 3.
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