Mutations in the glucocerebrosidase GBA gene, encoding the lysosomal enzyme β-glucocerebrosidase, represent the most frequent genetic risk factor for Parkinson’s disease, leading to lysosomal dysfunction, α-synuclein aggregation, and mitochondrial impairment. In this study, we investigated the therapeutic potential of GM1 ganglioside and its oligosaccharide portion (OligoGM1) in a cellular model of GBA-associated Parkinson’s disease, using SH-SY5Y neuroblastoma cells carrying the L444P GBA mutation. We observed that both GM1 and OligoGM1 reduced α-synuclein accumulation and improved cell viability. Notably, only OligoGM1 attenuated lysosomal overload and restored mitophagy. Additionally, OligoGM1 significantly prevented 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP)-induced toxicity, including lysosomal dysfunction, reactive oxidative species-overproduction, and mitochondrial energy failure, whereas GM1 failed to provide protection. These findings highlight the selective and multifaceted neuroprotective actions of OligoGM1 under both genetic conditions and environmental stress. Due to its small, hydrophilic nature and capacity to cross the blood–brain barrier, OligoGM1 emerges as a promising therapeutic candidate for GBA-related and potentially idiopathic forms of Parkinson’s Disease.
GM1 oligosaccharide-mediated rescue in GBA-linked Parkinson’s disease via modulation of lysosomal and mitochondrial dysfunctions / G. Lunghi, C. Pedroli, I. Tagliabue, D. Dobi, M.G. Ciampa, L. Mauri, L. Rouvière, A. Henriques, N. Callizot, S. Sonnino, E. Chiricozzi, M. Fazzari. - In: GLYCOCONJUGATE JOURNAL. - ISSN 0282-0080. - (2025), pp. 1-13. [Epub ahead of print] [10.1007/s10719-025-10185-y]
GM1 oligosaccharide-mediated rescue in GBA-linked Parkinson’s disease via modulation of lysosomal and mitochondrial dysfunctions
G. Lunghi
Primo
;I. Tagliabue;D. Dobi;M.G. Ciampa;L. Mauri;S. Sonnino;E. ChiricozziPenultimo
;M. Fazzari
Ultimo
2025
Abstract
Mutations in the glucocerebrosidase GBA gene, encoding the lysosomal enzyme β-glucocerebrosidase, represent the most frequent genetic risk factor for Parkinson’s disease, leading to lysosomal dysfunction, α-synuclein aggregation, and mitochondrial impairment. In this study, we investigated the therapeutic potential of GM1 ganglioside and its oligosaccharide portion (OligoGM1) in a cellular model of GBA-associated Parkinson’s disease, using SH-SY5Y neuroblastoma cells carrying the L444P GBA mutation. We observed that both GM1 and OligoGM1 reduced α-synuclein accumulation and improved cell viability. Notably, only OligoGM1 attenuated lysosomal overload and restored mitophagy. Additionally, OligoGM1 significantly prevented 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP)-induced toxicity, including lysosomal dysfunction, reactive oxidative species-overproduction, and mitochondrial energy failure, whereas GM1 failed to provide protection. These findings highlight the selective and multifaceted neuroprotective actions of OligoGM1 under both genetic conditions and environmental stress. Due to its small, hydrophilic nature and capacity to cross the blood–brain barrier, OligoGM1 emerges as a promising therapeutic candidate for GBA-related and potentially idiopathic forms of Parkinson’s Disease.
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