Modest improvement of metabolic and behavioral deficits with long-term ambroxol treatment in a Pink1−/−SNCAA53T double mutant mouse model of Parkinson’s disease
Luisa Franck, Lucie Valek, Lisa Hahnefeld, Sandra Trautmann, Carlo Angioni, Marc-Philipp Weyer, Dominique Thomas, Robert Gurke, Ilka Wittig, Gerd Geisslinger, Irmgard Tegeder

TL;DR
Long-term ambroxol treatment in a mouse model of Parkinson’s disease shows modest improvements in behavior and metabolism but also has some negative effects on brain lipids and mitochondria.
Contribution
This study evaluates the long-term effects of ambroxol in a Parkinson’s disease mouse model, revealing both benefits and potential drawbacks.
Findings
High-dose ambroxol led to mild behavioral and metabolic improvements but caused adverse effects on brain sulfatides and mitochondrial cardiolipins.
Ambroxol reduced α-synuclein and phosphorylated α-synuclein levels modestly and increased exploratory activity in mice.
Lysosomal accumulation of ambroxol disrupted sphingolipid metabolism and impaired mitochondrial compensatory mechanisms.
Abstract
Parkinson’s disease (PD) involves α-synuclein (αSyn) oligomerization and aggregation, processes facilitated by glycosphingolipids. Defective glycosphingolipid transport and degradation—especially via the lipid-degrading enzyme glucocerebrosidase 1 (GCase, gene GBA1)—aggravate PD and increase dementia risk. Ambroxol is a mucolytic drug and has emerged as a promising add-on therapy for PD since it acts as a chaperone for misfolded GCase, thereby increases the likelihood that mutated and misfolded GCase eludes ER-associated degradation (ERAD) and is transported to its destination, the lysosome. In this study we investigated whether and how ambroxol provided therapeutic benefits for PD irrespective of the GBA1 mutation status. Pink1−/−/SNCAA53T double mutant PD mice were administered ambroxol either via the drinking water (120–150 mg·kg−1·d−1) or via food pellets (75–100 mg·kg−1·d−1) for…
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Taxonomy
TopicsParkinson's Disease Mechanisms and Treatments · Lysosomal Storage Disorders Research · Glycosylation and Glycoproteins Research
