Transgenic Parkinson’s disease mouse models – A53T alpha-synuclein transgenic mouse model (M83+/+ α-synuclein transgenic line)
Evaluate the efficacy of your novel therapeutic targeting α-synuclein aggregation, spreading and motor dysfunction in the widely used transgenic A53T alpha-synuclein mouse model
Key characteristics of the A53T alpha-synuclein mouse model of Parkinson’s disease
The M83 A53T α-synuclein transgenic mouse model is one of the most widely used transgenic mouse models for studying synucleinopathies and evaluating therapeutics targeting α-synuclein-driven neurodegeneration.
Mutations, duplications, and triplications in the SNCA gene, including A53T, A30P, and E46K variants, are linked to autosomal dominant Parkinson’s disease and related synucleinopathies. The M83 mouse model overexpresses the human A53T mutant α-synuclein protein under the mouse prion protein (PrP) promoter, resulting in widespread neuronal expression throughout the central nervous system.
α-Synuclein is a presynaptic neuronal protein centrally involved in Parkinson’s disease pathogenesis and Lewy body formation. The M83 model recapitulates key hallmarks of progressive α-synucleinopathy, including age-dependent aggregation of pathological α-synuclein, neuroinflammation, and motor dysfunction. The mouse model has been shown in the literature to have early onset fine motor and sensorimotor behavioural impairments before robust motor dysfunction is observed (Paumier et al., 2013).
At InnoSer, the A53T alpha-synuclein mouse model is used across both spontaneous disease progression studies and accelerated α-synuclein seeding paradigms using (human and/or mouse) pre-formed fibrils (PFFs) or patient brain extracts, enabling flexible and translationally relevant study designs.
✓ InnoSer perfroms contract preclinical efficacy studies leveraging the M83 (A53T SNCA) model to study progressive α-synuclein aggregation, motor dysfunction, and neurodegeneration
✓ Alpha-synuclein spread and seeding studies (using human and/or mouse preformed fibrils as well as Parkinson’s disease patient brain extracts) can be performed using the A53T alpha-synuclein model as a background model
Take advantage of InnoSer’s behavioural research expertise, flexibility, and collaborative approach for your research. Our in-house neurology experts have long-standing experience modelling PD in vivo using transgenic mouse lines and other neurodegenerative diseases. Our neurology experts help guide your decision on choosing the best model fit for your current research goals.
InnoSer’s neurology expert team possesses relevant experience in working with multiple therapy types ranging from small molecules, peptides, enzymes, oligonucleotides, gene therapy (viral vectors – e.g.. AAVs) and immunotherapies (antibody/vaccine immunotherapies).
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Validation data featuring the A53T alpha-synuclein mouse model of Parkinson’s disease

The A53T alpha-synuclein transgenic mouse model of Parkinson’s disease shows motor deficits detected on balance beam.
Transgenic homozygous (M83+/+ A53T) mice show significant increase in slips (by trial) on the balance beam at 8 months of age compared to WT controls, demonstrating early motor coordination impairments associated with progressive α-synuclein pathology.
Readouts in the A53T alpha-synuclein mouse model of Parkinson’s disease
Biological Readouts
Test the efficacy of your treatments with the following biological readouts:
- MSD: Plasma, CSF, and brain (α-syn, cytokines, NfL)
- Immunohistochemistry (e.g. α-syn, neuroinflammation, neurodegeneration)
The People Behind Your Research
Thomas Vogels, PhD, In Vivo Neurology Study Director
Leads an expert team of scientists with vast experience in our Neurology models to help you choose the right model and guide your optimal study design. We provide the solution to accelerating your drug development.
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Frequently Asked Questions
Does InnoSer have experience with performing seed and spreading studies using the M83 transgenic mouse model?
Yes, InnoSer has experience conducting α-synuclein seeding and spreading studies using the M83 (A53T α-synuclein) transgenic mouse model. Compared to seeding studies in wild-type mice, the M83 hemizygous mice emerge as particularly well-suited for performing seeding studies due to the presence of an endogenous human A53T alpha-synuclein transgene that acts as a template for accelerating the development and further spread of alpha-synuclein aggregations.
In addition to working with mouse PFFs, InnoSer has also worked with both human preformed fibrils as well as Parkinson’s disease brain-derived α-synuclein extracts in collaboration with academic partners.
Preclinical efficacy studies at InnoSer can be designed using either sponsor-provided Parkinson’s disease brain extract seeds or human and/or mouse preformed fibrils (PFFs).
If you are interested in designing a seeding and spreading study in the M83 model, contact our neurology study directors to discuss experimental design, seed selection, and endpoints aligned with your therapeutic program.
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AAALAC Accreditation
InnoSer has earned the AAALAC accreditation, demonstrating our commitment to responsible animal care and use. AAALAC International is a nonprofit organization that promotes the humane treatment of animals in science through voluntary accreditation and assessment programs. InnoSer’s facilities in the Netherlands and Belgium have been AAALAC-accredited since 2016 and 2020, respectively. Read more about the AAALAC accreditation programme here.
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Animal Welfare
The 3Rs impact everything from policy and regulatory change to the development and uptake of new technologies and approaches. This is why InnoSer has ongoing commitment and monitoring of these processes. The steps we practice maximize our ability to replace, reduce and refine animal involvement and facilitate our commitment to these principles when it comes to research and drug development.
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